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Non-contact safety switch PSR-CT Original operating instructions Original operating instructions Non-contact safety switch PSR-CT UM EN PSR-CT, Revision 01 This user manual is valid for:
Designation PSR-CT-F-SEN-1-8 PSR-CT-C-SEN-1-8 PSR-CT-M-SEN-1-8 PSR-CT-C-ACT As of version V1.1.0 V1.1.0 V1.1.0 V1.0.0 Order No. 2702976 2702972 2702975 2702973 2019-01-25 1 0 _ n e _ 6 6 3 8 0 1 PHOENIX CONTACT GmbH & Co. KG Flachsmarktstrae 8 32825 Blomberg Germany phoenixcontact.com Table of contents Table of contents 1.4 1.1 1.2 1.3 1.5 1.6 1.7 1 For your safety ...........................................................................................................................6 Identification of warning notes ...............................................................................6 Qualification of users .............................................................................................6 Field of application of the product..........................................................................7 Intended use ..........................................................................................7 1.3.1 Foreseeable misuse ...............................................................................8 1.3.2 1.3.3 Product changes ....................................................................................8 Safety notes...........................................................................................................9 General safety notes ..............................................................................9 1.4.1 Electrical safety ....................................................................................10 1.4.2 1.4.3 Safety of machines or systems ............................................................11 1.4.4 Safety when starting applications .........................................................11 Directives and standards.....................................................................................11 Documentation ....................................................................................................12 Safety hotline.......................................................................................................12 2 Product description and method of operation ..........................................................................13 Product features ..................................................................................................13 PSR-CT components...........................................................................................13 Approved combinations .......................................................................13 2.2.1 2.2.2 Mounting accessories ..........................................................................14 2.2.3 Optional accessories ............................................................................14 Design .................................................................................................................15 Inputs and outputs ...............................................................................................16 2.4.1 24 V supply connection ........................................................................16 Safety inputs ........................................................................................16 2.4.2 Start/reset input ....................................................................................17 2.4.3 Safety outputs ......................................................................................18 2.4.4 2.4.5 Signal output/diagnostic output ............................................................18 2.4.6 Switching states of the outputs .............................................................19 Connector pin assignment...................................................................................20 Coding types .......................................................................................................21 Active sensor areas and response area...............................................................22 Actuation positions and travel directions..............................................................23 Limit range monitoring .........................................................................................24 Series connection................................................................................................24 Error safety..........................................................................................................25 Safe state ............................................................................................................25 2.5 2.6 2.7 2.8 2.9 2.10 2.11 2.12 2.1 2.2 2.3 2.4 108366_en_01 PHOENIX CONTACT 3 / 69 4.1 4.2 4.3 4.4 3.1 3.2 3.3 PSR-CT 3 Mounting ..................................................................................................................................26 Positioning and distances....................................................................................26 Mounting instructions...........................................................................................30 Mounting..............................................................................................................31 4 Electrical connection ................................................................................................................32 Connection notes.................................................................................................32 Notes on using Y distributors and dummy plugs ..................................33 4.1.1 4.1.2 UL notes ...............................................................................................33 Fuse protection for the power supply...................................................................34 Requirements on connecting cables....................................................................34 Maximum cable lengths.......................................................................................35 Checking the planned design ...............................................................36 4.4.1 5 Startup .....................................................................................................................................38 Startup information ..............................................................................................38 Safety switches with multicode sensors...............................................................38 Safety switches with unicode or fixcode sensors.................................................38 Teaching in actuators ...........................................................................39 5.3.1 6 Function test ............................................................................................................................40 Performing the function test.................................................................................40 7 Service and maintenance ........................................................................................................42 8 LED status indicators and switching states ..............................................................................43 Recovery in the event of an error.........................................................................45 9 Application examples ...............................................................................................................46 Application information ........................................................................................46 PSR-CT safety switches with safety relay............................................................47 Series connection with central reset on the switching device ...............47 9.2.1 9.2.2 Series connection with central reset for all safety switches ..................49 Series connection with local reset on all safety switches ......................51 9.2.3 9.2.4 Series connection with mixed startup behavior ....................................53 PSR-CT safety switch connected to a safe controller ..........................................55 5.1 5.2 5.3 9.1 9.2 6.1 8.1 9.3 4 / 69 PHOENIX CONTACT 108366_en_01 10.1 Table of contents 10 Technical data and ordering data .............................................................................................57 Technical data.....................................................................................................57 10.1.1 System properties of safety switches ...................................................57 Technical data for the sensors .............................................................57 10.1.2 10.1.3 Technical data for the actuator .............................................................60 10.1.4 Safety-related characteristics ...............................................................62 10.1.5 Interface types according to ZVEI classification ...................................62 10.1.6 Approvals .............................................................................................62 10.2 Ordering data.......................................................................................................63 A Technical appendix...................................................................................................................64 Explanation of switching distances......................................................................64 Explanation of the typical system times ...............................................................65 FCC / IC conformity .............................................................................................66 B Revision history ........................................................................................................................67 A 1 A 2 A 3 108366_en_01 PHOENIX CONTACT 5 / 69 PSR-CT 1 For your safety Read this user manual carefully and keep it for future reference. 1.1 Identification of warning notes This symbol indicates hazards that could lead to personal injury. There are three signal words indicating the severity of a potential injury. DANGER Indicates a hazard with a high risk level. If this hazardous situation is not avoided, it will result in death or serious injury. WARNING Indicates a hazard with a medium risk level. If this hazardous situation is not avoided, it could result in death or serious injury. CAUTION Indicates a hazard with a low risk level. If this hazardous situation is not avoided, it could result in minor or moderate injury. This symbol together with the NOTE signal word warns the reader of actions that might cause property damage or a malfunction. Here you will find additional information or detailed sources of information. Qualification of users 1.2 The use of products described in this user manual is oriented exclusively to:
Qualified personnel who plan and design safety equipment for machines and systems and are familiar with regulations governing occupational safety and accident preven-
tion. Qualified personnel who install and operate safety equipment in machines and sys-
tems. Qualified personnel Requirements Qualified personnel are people who, because of their education, experience, and instruction and their knowledge of relevant standards, regulations, accident prevention, and service conditions, have been authorized by those responsible for the safety of the system to carry out any required operations and who are able to recognize and avoid any possible dangers. Knowledge of the following topics is required:
Handling safety components Valid EMC regulations Valid regulations governing occupational safety and accident prevention 6 / 69 PHOENIX CONTACT 108366_en_01 Field of application of the product 1.3 PSR-CT safety switches are suitable for use in applications for contact-free detection of secure positions of doors, flaps, or moving parts of a machine, for example. For your safety Intended use EN ISO 13849-1, Safety-related parts of control systems EN ISO 14119, Interlocking devices associated with guards EN 60204-1, Electrical equipment of machines 1.3.1 As locking devices without guard locking device, PSR-CT safety switches perform the fol-
lowing safety functions:
Monitoring the position of movable guards Secure position monitoring on machines Combined with a movable guard and the machine control system, the safety switch prevents a dangerous machine function from being executed as long as the guard is open. A stop command is triggered when the guard is opened during hazardous machine operation. For intended use, comply with the requirements for installation and operation, in particular according to the following standards:
Depending on the conditions of use, the safety switch meets the following requirements and safety integrity features:
Design 4 according to EN ISO 14119 Requirements according to EN 60947-5-3 Only use the device according to the defined technical data and environmental conditions. See Section Technical data on page 57. Only use approved components and combinations for PSR-CT safety switches. See Section PSR-CT components on page 13. Suitable up to category 4, PL e (EN ISO 13849-1), SIL 3 (IEC 61508) Safety function Fulfilled requirements and safety integrity Technical data and envi-
ronmental conditions Approved components 108366_en_01 PHOENIX CONTACT 7 / 69 PSR-CT Foreseeable misuse 1.3.2 WARNING: Serious risks due to inappropriate use Inappropriate or unintended use, as well as manipulation of the safety switch, can lead to serious danger for the user or damage to the machine or system. Please refer to the detailed information in standard EN ISO 14119. The safety switch may not be used as a stop. Do not connect any other signals to the safety inputs of a PSR-CT safety switch. Only the following signals are permitted:
Connection to 24 V DC for a single switch or the first switch in a series connection Connection through the safety outputs of a PSR-CT safety switch in a series con-
with PSR-CT safety switches nection with PSR-CT safety switches Product changes 1.3.3 Modifications to hardware and firmware of the device are not permitted. Incorrect operation or modifications to the device can endanger your safety or damage the device. Do not repair the device yourself. If the device is defective, please contact Phoenix Contact. 8 / 69 PHOENIX CONTACT 108366_en_01 For your safety Safety notes 1.4 WARNING: Serious risks due to inappropriate use Depending on the application, inappropriate use of the safety switch may pose serious risks for the user. Observe the safety notes in this section. Observe the warning instructions provided elsewhere in this document. 1.4.1 General safety notes Observe all information in this user manual and the accompanying documents. See Section Documentation on page 12. The safety of personnel and equipment can only be assured if the safety switch is used cor-
rectly. See Section Intended use on page 7. Startup, mounting, modifications, and upgrades may only be carried out by qualified person-
nel. Safety components may not be bridged, turned away, removed or rendered ineffective in another manner. Observe the measures for reducing the bypassing possibilities of locking devices according to EN ISO 14119, Section 7. The switching procedure may only be triggered by actuators designed specifically for this purpose. Make sure that no bypassing by replacement actuators takes place. Safety switches and actuators may not be used as a stop. Observe EN ISO 14119, Sections 5.2 and 5.3 for attaching safety switches and actua-
For this, restrict the access to actuators. tors. In the event of an error, replace the device. The devices might be damaged following an error. Correct operation can no longer be ensured. Only the manufacturer or their authorized representative may perform the following activi-
ties. Otherwise the warranty is invalidated. Repairs to the device Opening the housing Make sure that the device can never be reused. Dispose of the device in accordance with environmental regulations. Documentation Safety of personnel and equipment Startup, mounting, and modifications Installation conditions and tamper protection Defective devices Do not open the housing Decommissioning and dis-
posal 108366_en_01 PHOENIX CONTACT 9 / 69 PSR-CT Electrical connection PELV power supply Ground contact Fuse protection for power supply Protective circuit in the case of inductive loads Sources of interference from power devices EMC interference ESD information Electrical safety 1.4.2 WARNING: Loss of safety function/hazardous shock currents Incorrect installation can result in the loss of the safety function as well as hazardous shock currents. Depending on the application, there may be serious risks for the user. Observe the notes on electrical safety. Observe the warning instructions provided elsewhere in this document. Plan the devices used and their installation in the system according to the specific requirements. Recheck plants and systems retrofitted with the safety switch. Electrical connection may only be carried out by qualified personnel. All electrical connections have to be insulated from the mains using suitable measures. Observe the requirements according to EN 60204-1, Section 6.4. Use safety transformers according to IEC 61558-2-6 with limitation of the output voltage in the event of an error. Another option is to use an equivalent insulation measure according to PELV require-
ments. Use the same power source for all devices that are electrically connected to the safety switch. Use the same ground contact for all devices that are electrically connected to the safety switch. Protect the power supply with a suitable external fuse. See Section Fuse protection for the power supply on page 34. Protect the outputs with a freewheeling diode. Implement the protective circuit in parallel to the load. Do not use RC suppressors. All electrical outputs require an adequate protective circuit in the case of inductive loads. Power devices may represent a major source of interference. Remove the input and output circuits for signal processing locally from these sources of interference. Ensure the cable installation of the safety circuits is as far away as possible from the lines of the power circuits. For avoiding EMC interference:
Ensure that the physical ambient and operating conditions at the installation location meet the requirements of EN 60204-1, Section 4.4.2. Observe possible fields of interference for devices like frequency converters or induc-
tion heating systems. Observe the manufacturer's information. NOTE: Electrostatic discharge Electrostatic discharge can damage or destroy the components. When handling the device, observe the necessary safety precautions against electrostatic discharge (ESD) according to EN 61340-5-1 and IEC 61340-5-1. 10 / 69 PHOENIX CONTACT 108366_en_01 Draw up and implement a safety concept Risk assessment, valida-
tion and function test Achievable safety integrity Start conditions For your safety Safety of machines or systems 1.4.3 The machine or system manufacturer and the operator are responsible for the safety of the machine or system and the application in which the machine or system is used. In order to use the device described in this document, you must have drawn up an appropriate safety concept for your machine or system. This includes risk assessment according to the direc-
tives and standards mentioned in Section Directives and standards on page 11. Before using the device, perform risk assessment for the machine or system. Validate your entire safety system. Carry out a new validation every time you make a safety-related modification. Perform a function test on a regular basis. Functional safety is guaranteed for the device as a single component. However, this does not guarantee functional safety for the entire machine or system. In order to achieve the desired safety level for the entire machine or system, define the safety requirements for the machine or system, as well as how to implement them, from both a technological and orga-
nizational perspective. Safety when starting applications 1.4.4 Take the following into consideration when determining the start conditions for your machine or system:
The machine or system may only be started if it can be ensured that nobody is present in the danger zone. If required: meet the requirements of EN ISO 13849-1 with regard to the manual reset function. Pressing a reset button must not cause automatic startup of a dangerous machine func-
tion. Meet the requirements of EN ISO 12100 with regard to closing safety equipment:
Closing of safety equipment must not cause automatic startup of a dangerous machine function. A separate start command must be used. For exceptions, see EN ISO 12100 or the relevant C standards. Directives and standards 1.5 The directives and standards complied with by the PSR-CT safety switches can be found in the certificate issued by the approval body and in the EC declaration of conformity. These documents are available on the Internet. See phoenixcontact.net/products. For separate notes on FCC / IC conformity, refer to the Appendix FCC / IC conformity on page 66. 108366_en_01 PHOENIX CONTACT 11 / 69 PSR-CT Latest documentation Documentation 1.6 Always use the latest documentation. Changes or additions to documentation can be found on the Internet. See phoenixcontact.net/products. Also observe the documentation of any additional devices used together with the safety switches. Safety hotline 1.7 Should you have any technical questions, please contact our 24-hour hotline. Phone:
E-mail:
+49 5281 9462777 safety-service@phoenixcontact.com 12 / 69 PHOENIX CONTACT 108366_en_01 2 Product description and method of operation Product description and method of operation Product features 2.1 The PSR-CT safety switches offer the following features:
Tamper protection via RFID transponder technology OSSD safety outputs for safe switching-off Safety inputs for series connection according to EN ISO 14119 Start/reset input for autostart or manual monitored start Signal output/diagnostic output LED indicators 4 actuation positions, 3 travel directions 3 coding types PSR-CT components 2.2 The PSR-CT safety switch is made up of the following components:
Sensor with different coding type for mounting on the fixed part of the safety equipment designation: PSR-CT-...-SEN-1-8 Coded actuator for mounting on moving part of the safety equipment designation: PSR-CT-C-ACT Approved combinations 2.2.1 The sensor and actuator combinations with checkmarks are approved combinations. Table 2-1 Approved PSR-CT combinations Sensor PSR-CT-F-SEN-1-8 PSR-CT-C-SEN-1-8 PSR-CT-M-SEN-1-8 Actuator PSR-CT-C-ACT 108366_en_01 PHOENIX CONTACT 13 / 69 PSR-CT Mounting accessories 2.2.2 The following accessories are provided with the actuator of the safety switch:
Caps for the mounting slots to protect against dirt accumulation Safety screws for mounting to the safety equipment Optional accessories 2.2.3 The following accessories are available for easy connection:
Series connection Y distributor for the wiring of Manual startup behavior Integrated diagnostics via signal contact Dummy plug for each sensor circuit See Section Ordering data on page 63. The functional safety range from Phoenix Contact will provide you with suitable evalua-
tion devices for use with PSR-CT safety switches. See phoenixcontact.net/products. 14 / 69 PHOENIX CONTACT 108366_en_01 2.3 Design Product image 1 P S P S R-C Rswitch T-C-A Ord.-N 2702973 o. C T G m b O E P H C O N H & C NIX C TA T o. K G 32825 Blo G m erm berg any Product description and method of operation 2 1 2 PSR-CT-C-ACT actuator PSR-CT-...-SEN-1-8 sensor P S P S R R-C Ord.-N 2 7 O 0 2 utp 9 ut:
s witc T-F-S o. 7 E 6 h N-1-8 2 4 V D C
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DIA G STATE S 1 1 erial N 2 3 8 V 4 6 5 o. 6 1.1.0 5 4 3 2 1 LED status indicators Positioning arrows Mounting slots M12 connection Year of manufacture and version Red LED Green LED PSR-CT safety switch Figure 2-1 The sensor has two LED indicators. DIAG STATE The LED indicators show general states and error messages of the safety switch. See Section LED status indicators and switching states on page 43. Two arrows are printed on the sensor, one arrow on each side. One arrow is printed on the actuator, on one side only. The arrows indicate the permissible actuation positions and correct alignment of the sensor and actuator with one another. See Section Actuation positions and travel directions on page 23 and Section Mount-
ing on page 26. In the housing, the sensor and actuator each has two mounting slots each for mounting to the safety equipment. The 3-step mounting slots of the actuator can be used to set the required distance to the sensor. The actuator is mounted using the provided safety screws. See Section Mounting on page 26. The sensor is connected via an 8-pos. M12 connector. See Section Electrical connection on page 32. The year of manufacture and the current version number are located on the housing under the serial number in the format YY VX.X.X. 108366_en_01 PHOENIX CONTACT 15 / 69 PSR-CT Inputs and outputs 2.4 The sensor of the safety switch provides the following inputs and outputs via the 8-pos. M12 connector:
24 V supply connection 2 safety inputs Start/reset input 2 safety outputs (OSSD) 1 signal output/diagnostic output 24 V supply connection 2.4.1 Designation: UB, 0 V The UB and 0 V connections are used to supply the sensor with adequate voltage. When doing so, observe the requirements on the power supply. See Section Electrical safety on page 10. See Section Technical data for the sensors on page 57. Protect the power supply with a suitable external fuse. See Section Fuse protection for the power supply on page 34. The actuator is inductively supplied with power via the sensor as soon as the actuator has reached the switch-on distance. Safety inputs 2.4.2 Designation: FI1A, FI1B Safety inputs FI1A and FI1B are used for safe series connection of several safety switches. Connect the safety inputs of the first switch in a series connection to 24 V DC. Connect the safety inputs of all other switches in the series connection to the safety outputs of the previ-
ous safety switch. When using a single safety switch, connect the safety inputs to 24 V DC. Power supply of sensor Power supply of actuator Safe series connection Single switch 16 / 69 PHOENIX CONTACT 108366_en_01 Local start/reset circuit Autostart Manual, monitored start Start pulse Central reset for switch chain Product description and method of operation Start/reset input 2.4.3 Designation: START The safety switch provides two possible startup behaviors:
Autostart The sensor is switched on automatically as soon as a valid actuator is detected in the response area. Manual, monitored start If there is a valid actuator in the response area The sensor is switched on under the following conditions:
And:
After a local reset button has been pressed and released again Implement the desired startup behavior of the safety switch via the corresponding wiring of the START input. Also observe the information and assistance notes in the following sections:
Section Safety when starting applications on page 11 Section Application examples on page 46 For this, bridge the START input with the FO1A safety output. For the automatic startup behavior, the sensor expects a clock signal from safety output FO1A at the START input. If the sensor does not detect a clock signal from the FO1A/FO1B safety outputs at the START input, the sensor is in manual, monitored, start behavior. The sensor expects a signal change at the START input as the start command. Manual, monitored start takes place with a falling edge of a 24 V signal (release of the reset button). The start signal is subject to time monitoring: The 24 V signal must be applied at the START input for at least 100 ms and 2 s, maximum. Connect a reset button with 24 V DC to the START input. The safety function can be centrally reset in the event that several switches are connected in series. For this, execute the reset function at the evaluating switching device, and oper-
ate the individual switches with automatic startup behavior. 108366_en_01 PHOENIX CONTACT 17 / 69 PSR-CT Switching on Safe switching off Test pulses Non-safety-related Safety outputs 2.4.4 Designation: FO1A, FO1B The OSSD outputs FO1A and FO1B are used for safely switching off the output circuit. The actuator moves away from the sensor when the safety equipment is opened. The actu-
ator approaches the sensor when the safety equipment is closed. When the actuator has reached the switch-on distance, power is supplied via the sensor, and data transmission starts. If the sensor detects a permissible coding, the safety outputs are switched on depending on the selected startup behavior. If the actuator leaves the response area of the sensor, the safety outputs are switched in a safety-related manner. See Section Switching states of the outputs on page 19. Observe the corresponding switching distances according to the actuation position and travel direction. See Section Mounting on page 26 and Section Technical data for the actuator on page 60. The safety outputs generate test pulses:
When switched on When switched off during device start Downstream devices must tolerate these test pulses. See Times in Section Technical data on page 57. See Section Interface types according to ZVEI classification on page 62. 2.4.5 Designation: DGN The signal output is switched on as soon as the actuator has left the response area of the sensor. The information is non-safety-related. The information is used for evaluating the position of safety equipment, for example. See Section Switching states of the outputs on page 19. Signal output/diagnostic output 18 / 69 PHOENIX CONTACT 108366_en_01 Switching states Product description and method of operation Switching states of the outputs 2.4.6 The outputs have the following switching states when safety equipment is open or closed. The switch-on state depends on the selected startup behavior. Table 2-2 Output FO1A FO1B DGN Switching states On Off Safety equipment closed Actuator within response area Permissible coding Start command present/auto-
start Actuator within response area Permissible coding Start command not present Safety equipment open Actuator outside response area Off On Off On Overview of the switching states in combination with the LED indicators for general states and error messages:
See Section LED status indicators and switching states on page 43. 108366_en_01 PHOENIX CONTACT 19 / 69 PSR-CT Pin assignment Connector pin assignment 2.5 The sensor connector has the following pin assignment. Use the position of the connector's coding tap as a guide. START UB 0V FI1A FI1B F01A F01B DGN 8 2 7 6 1 3 4 7 8 1 6 5 4 3 2 5 View of the connector and pin assignment Pin assignment of the sensor connector Designation FI1B UB FO1A FO1B DGN FI1A 0 V START Description Enable input for channel 2 24 V DC power supply Safety output for channel 1 Safety output for channel 2 Signal output/diagnostic output Enable input for channel 1 0 V DC ground Start/reset input Figure 2-2 Table 2-3 Pin 1 2 3 4 5 6 7 8 20 / 69 PHOENIX CONTACT 108366_en_01 Fixed, unique assignment Fixed, multiple assign-
ment No fixed assignment Product description and method of operation Coding types 2.6 The sensors are available in various coding types. When combined with the coded actuator, this results in a corresponding encoding level for the safety switch according to EN ISO 14119. Fixcode:
For the sensor to detect the actuator, the actuator must first be assigned to the sensor by means of a learning process. See Section Startup on page 38. The learning process can be carried out once. The sensor and actuator are then perma-
nently assigned to each other by their coding. Safety switches with fixcode evaluation achieve a high encoding level. Unicode:
For the sensor to detect the actuator, the actuator must first be assigned to the sensor by means of a learning process. See Section Startup on page 38. Teaching-in of a new actuator can be repeated any number of times. The sensor only detects the last taught-in actuator. Safety switches with unicode evaluation achieve a high encoding level. Multicode:
The sensor detects every actuator of the permssible type. No specific actuator code can be assigned. It is not necessary to teach in an actuator. Safety switches with multicode evaluation achieve a low encoding level. Overview of sensor coding types You can use the product designation to determine the coding type of the sensor, which is the letter after PSR-CT-... Table 2-4 Sensor PSR-CT-F-SEN-1-8 PSR-CT-C-SEN-1-8 PSR-CT-M-SEN-1-8 Coding type Fixcode Unicode Multicode Sensor coding types 108366_en_01 PHOENIX CONTACT 21 / 69 PSR-CT RFID transponder technol-
ogy Transponder field Active sensor areas and response area 2.7 The safety switch operates with RFID transponder technology. The sensor has three active sensor surfaces:
The sensor generates a transponder field with a main lobe and side lobes. The main lobe represents the defined response area of the sensor for safe switching. Front (black surface) Both surfaces on the side (with printing)
-26
-22
-18 6 1 0 1 4 X Y 30 26 22 18 14 10 6 2 2 2 6 10
-2
-6
-10
-14
-18
-22
-26
-30 14 18 22 26 Z Figure 2-3 Transponder field of the sensor The side lobes of the transponder field may influence the response behavior of the sensor depending on the actuation position and travel direction. In order to avoid influence of the side lobes, observe the specified minimum dis-
tances between sensor and actuator. Please observe the information in Section Mounting on page 26 and Section Tech-
nical data and ordering data on page 57. 22 / 69 PHOENIX CONTACT 108366_en_01 4 actuation positions Product description and method of operation 2.8 Actuation positions and travel directions The sensor and actuator operate in four permissible actuation positions. The actuation position describes the orientation of the sensor and actuator towards one another, when both components are mounted to the safety equipment, and the safety equip-
ment is closed. Observe the orientation of the arrow on the sensor and actuator in order to ensure the following:
Permissible actuation position according to the illustration (A, B, C, D) Alignment of the sensor and actuator without center offset Center offset There is a center offset when the tips of the arrows on the printing of the sensor and actuator are not on one line in the closed state. A B C D Figure 2-4 Actuation positions Figure 2-5 Center offset when safety equipment is closed 3 travel directions There are three possible travel directions in each actuation position, in which the actuator can approach the sensor. Actuation position and travel direction influence the switching distances. Please observe the information in Section Mounting on page 26 and Section Technical data and ordering data on page 57. 108366_en_01 PHOENIX CONTACT 23 / 69 PSR-CT Limit range monitoring 2.9 The moving part of a safety equipment product can settle with time. The actuator is attached to the moving part of the safety equipment product, and therefore moves out of the response area of the sensor. The sensor detects this and indicates that the actuator is within the limit range with a flashing DIAG LED. In this way, the safety equipment can be readjusted in time. See Section LED status indicators and switching states on page 43. 2.10 Series connection PSR-CT safety switches are suitable for operation in a series connection according to EN ISO 14119. If a safety equipment product is opened, or an error occurs at a safety switch, the entire system is switched off. Connect a maximum of 30 safety switches in series. Observe the corresponding minimum distances between the safety switches and the maximum cable length of a switch chain. See Section Mounting on page 26 and Section Maximum cable lengths on page 35. Observe the rise of the risk time for a switch chain. See Appendix Explanation of the typical system times on page 65. 24 / 69 PHOENIX CONTACT 108366_en_01 Safe state in the event of an error Product description and method of operation Protection against polarity reversal of the supply voltage Short-circuit protection and short-circuit monitoring at the safety outputs Short-circuit protection at the signal outputs 2.11 Error safety The sensor provides the following internal error safety features:
Cross-circuit monitoring between the safety outputs The sensor detects errors that have occurred with the next demand to switch on the safety outputs at the latest. Behavior in the event of an error The safety outputs are switched off in the event of an error in the sensor. The DIAG LED lights up red. In addition, a flashing code of the green STATE LED indicates the type of error. See Section LED status indicators and switching states on page 43. Recovery in the event of an error 1. Remove the cause. 2. Open and close the safety equipment. If the error is still indicated:
3. Restart the safety switch:
a) Disconnect the operating voltage. b) Connect the operating voltage again. If the error cannot be reset, please contact Phoenix Contact. Perform a function test after every error. See Section Function test on page 40. 2.12 Safe state If the safety equipment is open, the safety outputs are switched off beginning at the assured release distance Sar. The device is in the safe state when the safety outputs are switched off. The safe state is also entered in the following cases:
Error Learning process 108366_en_01 PHOENIX CONTACT 25 / 69 PSR-CT 3 Mounting Tip: for safety switches with fixcode or unicode evaluation, perform teaching before mounting. Positioning and distances 3.1 Observe the orientation of the arrows on the sensor and actuator in order to ensure the following:
See Section Actuation positions and travel directions on page 23. The side lobes of the transponder field may influence the response behavior of the sensor depending on the actuation position and travel direction. Permissible actuation position according to illustration (A, B, C, D) Alignment of the sensor and actuator without center offset In order to avoid influence of the side lobes, observe the specified minimum dis-
tances between sensor and actuator.
-26
-22
-18 6 1 0 1 4 X Y 30 26 22 18 14 10 6 2 2 2 6 10
-2
-6
-10
-14
-18
-22
-26
-30 14 18 22 26 Z Figure 3-1 Transponder field of the sensor 26 / 69 PHOENIX CONTACT 108366_en_01 The values of the switching distances apply under the following conditions:
Center offset of m = 0 with regard to arrow alignment Measured on plastic mounting surface Without influence from surroundings and mounting surface Mounting Table 3-1 Actuation position Minimum distances and switching distances Minimum dis-
tance in X direc-
tion
-
Travel direction X direction A B
+Z X Y
-Z Y direction 7 mm Minimum distance between the sensor and actuator in the X direc-
tion Z direction
-
Switching distances with regard to respective travel direction Typical switch-on distance Assured operation distance Sao Switching hysteresis Assured release distance Sar Repeat accuracy Typical switch-on distance Assured operation distance Sao At 7 mm distance between the sensor and actuator in the X direction Switching hysteresis Assured release distance Sar Repeat accuracy Typical switch-on distance Assured operation distance Sao At 6 mm distance between the sensor and actuator in the X direction Switching hysteresis Assured release distance Sar Repeat accuracy 13 mm, typical Position A:
10 mm Position B:
9 mm 1 mm, minimum 2 mm, typical 20 mm, maximum 10 %
9 mm, typical Position A:
6 mm Position B:
5 mm 1 mm, minimum 2 mm, typical 11 mm, maxi-
mum 10 %
12 mm, typical Position A:
7 mm Position B:
15 mm 1 mm, minimum 2 mm, typical
+Z direction:
23 mm, maximum
-Z direction:
32 mm, maximum 10 %
108366_en_01 PHOENIX CONTACT 27 / 69 PSR-CT Table 3-1 Actuation position Minimum distances and switching distances Minimum dis-
tance in X direc-
tion
-
Travel direction X direction C D X Y Z Y direction
-
Z direction
-
Switching distances with regard to respective travel direction Typical switch-on distance Assured operation distance Sao Switching hysteresis Assured release distance Sar Repeat accuracy Typical switch-on distance At 4 mm distance between the sensor and actuator in the X direction Assured operation distance Sao 1) At 2 mm distance between the sensor and actuator in the X direction 2) At 1 mm distance between the sensor and actuator in the X direction Switching hysteresis Assured release distance Sar Repeat accuracy Typical switch-on distance At 4 mm distance between the sensor and actuator in the X direction Assured operation distance Sao 1) At 2 mm distance between the sensor and actuator in the X direction 2) At 1 mm distance between the sensor and actuator in the X direction Switching hysteresis Assured release distance Sar Repeat accuracy 7 mm, typical Position C:
3 mm Position D:
2 mm 1 mm, minimum 2 mm, typical 17 mm, maximum 10 %
6 mm, typical Position C:
4 mm 1) Position D:
3 mm 2) 1 mm, minimum 2 mm, typical 15 mm, maxi-
mum 10 %
9 mm, typical Position C:
5 mm 1) Position D:
4 mm 2) 1 mm, minimum 2 mm, typical 29 mm, maxi-
mum 10 %
28 / 69 PHOENIX CONTACT 108366_en_01 Table 3-2 Distance between sensors Distance between sensors min. 140 mm min. 140 mm In order to prevent mutual interference, keep a minimum distance of 140 mm between two sensors. The minimum distance applies in the following cases:
Individual wiring of safety switches Series connection of safety switches Mounting 108366_en_01 PHOENIX CONTACT 29 / 69 PSR-CT Qualified personnel Installation conditions Mounting instructions 3.2 Mounting and removal may only be performed by qualified personnel. WARNING: Risk due to unexpected machine startup Unexpected machine startup during mounting may result in death or serious injury. Make sure that the dangerous machine function is switched off and remains switched Observe the information in the section on safety regulations and installation notes. off. Before working on the device, disconnect the power. Keep away from metallic surfaces in order not to affect the switching distances. Check the switching distances and the assured release distance Sar after mounting. WARNING: Loss of safety function due to changed device properties depending on the surroundings and mounting surface Electrically or magnetically conductive materials within the surroundings of the safety switch may influence the device properties. The switching distances change depending on the mounting surface material. Adhere to the following conditions and requirements when mounting the safety switch:
Observe the installation measures according to EN ISO 14119. Mount the safety switches in such a way that the following conditions are met:
The minimum distance between sensor and actuator is kept (if required). There is a form-fit connection between the actuator and the safety equipment. Ensure that all hazards are excluded if safety equipment is open until the assured release distance Sar is reached. Ensure that the sensor and actuator cannot be easily removed or manipulated. Use an attachment for the actuator that cannot be removed. Ensure that the safety switch is not used as a stop. Mount the safety switch so that it can easily be accessed for checking and maintenance purposes. Install the connecting cable so that it is protected in areas where high-pressure cleaners are used. Mounting surface Prepare the mounting surface on the safety equipment appropriately. The mounting surface requires drill holes for M4 screws. See dimensional drawings in Section Technical data on page 57. 30 / 69 PHOENIX CONTACT 108366_en_01 Mounting Mounting 3.3 Proceed as follows to mount the safety switch to the safety equipment:
Mounting the sensor Tip: in order to enable later exchange, use common screws when mounting the sensor. 1. Screw the sensor to the fixed part of the safety equipment. 2. Close the mounting slots using the caps. Mounting the actuator Use the safety screws provided. Observe the permissible tightening torque for the screws. See Section Technical data on page 57. The safety screws can only be used once. After tightening, the screws cannot be removed again. 1. At first, only loosely attach the actuator to the moving part of the safety equipment. 2. Adjust the actuator:
According to the arrow alignment between the sensor and actuator According to the required distances between the sensor and actuator 3. Tighten the actuator. 4. Close the mounting slots using the caps. 108366_en_01 PHOENIX CONTACT 31 / 69 PSR-CT 4 Electrical connection Stand-alone operation Series connection You have the following options when connecting the safety switch:
For the simple connection, different Y distributors and a dummy plug are available. See Section Ordering data on page 63. When using a single safety switch or a switch chain, please refer to Section Application examples on page 46. Qualified personnel Connection notes 4.1 Electrical connection may only be performed by qualified personnel. WARNING: Risk due to unexpected machine startup or electric shock Unexpected machine startup or electric shock may result in death or serious injury. Make sure that the machine is disconnected from the power and remains discon-
Make sure that the dangerous machine function is switched off and remains switched nected from the power. off. Always evaluate both safety outputs. Do not use the signal outputs as safety outputs. WARNING: Loss of safety function due to incorrect connection In order to guarantee the safety function, observe the following points when connecting the safety switch:
CAUTION: Damage to equipment or malfunction due to incorrect connection Observe the following points when connecting the safety switch:
The safety outputs generate their own test pulses when switched on and switched off. Do not use a controller with clocking, or switch off the clocking of the controller. Make sure that a downstream controller can tolerate the test pulses of the safety switch. Please note: the test pulses of the safety switch can lead to temporary switching oper-
ations, depending on the inertia of the downstream device (relay, controller, etc.). Use downstream evaluation devices with pulse-switching inputs. When switched on, the safety outputs provide a +24 V level. Observe the information in the section on safety regulations and installation notes. 32 / 69 PHOENIX CONTACT 108366_en_01 Electrical connection Notes on using Y distributors and dummy plugs 4.1.1 Observe the following notes when connecting with Y distributors and the corresponding dummy plugs:
Do not stick Y distributors directly on the connection of the safety switch. Use suitable connecting cables to connect the Y distributor and the safety switch. In order to prevent manipulation, install the Y distributors or cables out of reach of peo-
ple. UL notes 4.1.2 Adhere to the following conditions for use according to cULus requirements1:
Use of a power supply with for use in class 2 circuits feature Alternatively: electrically isolated power supply unit with a maximum off-load voltage of 30 V DC and a maximum limited current of 8 A Use of a connecting cable that is listed under UL category code CYJV2 or CYJV 1 The devices have been checked according to the requirements of UL508 and CSA/ C22.2 no. 14 (protec-
tion against electric shock and fire). Only for use according to NFPA 79 (Industrial Machinery). 108366_en_01 PHOENIX CONTACT 33 / 69 PSR-CT Fuse protection for the power supply 4.2 Protect the power supply externally. Design the external fuse depending on the number of switches and the required power for the outputs. Also observe the connecting cable used. Observe the following rules:
Maximum current consumption of a single switch Imax IUB IFO1A+FO1B
= IUB + IFO1A+FO1B
= Current consumption of the switch (see technical data)
= Switching current of safety outputs
(2 x maxiumum switching current, see technical data) Maximum current consumption of a switch chain Imax n
= n x IUB + IFO1A+FO1B
= Number of connected switches If you protect the safety switch and evaluation device with a common fuse, also observe the requirements of the evaluation device when designing the fuse. Requirements on connecting cables 4.3 CAUTION: Damage to equipment or malfunction due to inappropriate connecting cables Observe the requirements on the connecting cables in the following table. Table 4-1 Parameter Conductor cross-section, minimum R, maximum C, maximum L, maximum Recommended cable type Requirements on connecting cables Value 0.34 mm 80 /km 120 nF/km 0.65 mH/km LIYY 8 x 0.34 mm Note that too high cable capacities at very low load currents may falsify the test pulses of the safety outputs. If you are planning a cable design that differs (cross section, material, etc.), please contact Phoenix Contact:
34 / 69 PHOENIX CONTACT 108366_en_01 Electrical connection Maximum cable length Maximum cable lengths 4.4 Switch chains up to the maximum cable length as per Table 4-2 are permitted while observ-
ing the voltage drop due to the cable resistance. Also observe the maximum permissible cable lengths between two safety switches. Table 4-2 Number of switches in the chain 20 30 Maximum cable length between two safety switches In:
Note that a high voltage drop at large load currents leads to low input voltages at the sen-
sor and evaluation unit. Maximum cable length lmax 200 m 130 m 100 m Supply voltage at the first switch 24 V DC 24 V DC lmax ln l2 l1 umin = 24 V DC iout 5 x 0,34 mm2 5 x 0,34 mm 2 5 x 0,34 mm 2 l y a e R y t e f a S t c a t n o C x i n e o h P Figure 4-1 Maximum cable length with n PSR-CT safety switches PSR-CT n PSR-CT n-1 PSR-CT 1 Key:
PSR-CT 1 PSR-CT n First switch in the switch chain Last switch in the switch chain 108366_en_01 PHOENIX CONTACT 35 / 69 PSR-CT Checking the planned design 4.4.1 Check the planned design using Table 4-3 Example table for cable lengths. Proceed as described in the example. See Example: determining the cable length on page 37. The information on the cable lengths applies under the following conditions:
Table 4-3 The requirements on the connecting cables according to Table 4-1 are adhered to. Example table for cable lengths iout [mA]
n l1 [m]
Maximum number of switches Possible output current per channel FO1A/FO1B Maximum cable length from the last switch to the control-
0.34 mm cable 5 6 10 10 25 50 100 10 25 50 100 10 25 50 100 ler 100 100 80 50 100 90 70 50 70 60 50 35 Note that connecting a reset button will influence the cable length design. If you are connecting more than ten switches in series, please contact Phoenix Contact:
36 / 69 PHOENIX CONTACT 108366_en_01 Electrical connection Example: determining the cable length Six switches in series are to be used. The cable length from the safety relay in the control cabinet to the last switch
(PSR-CT 6) is 40 m. The cable length between each individual switch is 20 m. The safety relay consumes 75 mA at each of the two safe inputs. lnom= 140 m l2 = 5 x 20 m l1 = 40 m ln = 20 m iout= min. 75 mA PSR-CT 6 PSR-CT 5 PSR-CT 4 PSR-CT 3 PSR-CT 2 PSR-CT 1 Figure 4-2 Switch chain with six PSR-CT safety switches Determine the relevant values using the example table:
1. In this example, six switches. In column n, select the corresponding section. In the selected section, search column iout for a current 75 mA. In the same line, read the maximum cable length from the last switch (PSR-CT 6) to the controller from column l1. In this example: 50 m. In this example: 100 mA. 2. 3. l y a e R y t e f a S t c a t n o C x i n e o h P Result:
With a length of 40 m, the desired cable length l1 is lower than the permissible value in Table 4-3. The total length of the switch chain ltarget is 140 m and therefore lower than the maxi-
mum value according to Table 4-2 (lmax = 200 m for 20 switches). The planned application in this format is operational. 108366_en_01 PHOENIX CONTACT 37 / 69 PSR-CT 5 Startup Qualified personnel Safe state Requirements Ready to learn Learning duration Startup information 5.1 Startup may only be carried out by qualified personnel. Tips:
Mark sensors and actuators that belong together. For safety switches with fixcode or unicode evaluation, perform teaching before mounting. Switch chain: perform teaching-in for each safety switch before connecting in series. Safety switches with multicode sensors 5.2 Safety switches with multicode sensors are in normal mode after the operating voltage has been applied and the self-test has been carried out successfully. It is not necessary to teach in an actuator. The red DIAG LED is not on. 5.3 Safety switches with unicode or fixcode sensors In order for the safety switch to form an operational function unit, use a learning process to assign the actuator to the unicode or fixcode sensor. The safety outputs are switched off during the learning process. The safety switch is in the safe state. The learning process can only be carried out if the safety switch is operating without errors. In the case of safety switches that have not been taught in, the ready-to learn period is unlimited. When teaching in again, the ready-to-learn period is 3 min, approximately. A successful learning process takes 30 s, approximately. Information on fixcode sensors The learning process can be carried out once. It is not possible to teach in any additional actuators. 38 / 69 PHOENIX CONTACT 108366_en_01 Startup Information on unicode sensors The learning process can be repeated as often as required. The sensor only detects the last actuator taught in. If a new actuator (B) is taught in, the sensor blocks the code of the last actuator (A). This actuator (A) cannot be used during the next learning process. The sensor releases the blocked code again after a third actuator (C) has been taught in. Actuator (A) can be used again. Actuator (B) is now blocked. If the actuator to be learned is located in the response area of the sensor for less than 30 s, the sensor will not accept it. The actuator learned last remains valid. Teaching in actuators 5.3.1 Observe the LED status indicators on the sensor. See Section LED status indicators and switching states on page 43. Proceed as follows to teach in an actuator:
Starting situation: the actuator is not within the response area / the safety equipment is open. 1. Apply the operating voltage to the safety switch. The green STATE LED flashes quickly, 5 Hz. The sensor is performing a self-test for 5 s, approximately. The green STATE LED flashes cyclically: 2 x green, off long. The sensor is ready to learn:
3 min when teaching in again, unlimited for switches that have not been taught in before. 2. Move the actuator towards the sensor. Observe the assured operation distance Sao. The green STATE LED flashes cyclically: off short, green long. The learning process has started. 3. Keep the actuator within the response are of the sensor for 30 s, approximately. The red DIAG LED and the green STATE LED flash alternately: red short, green long. The learning process has been completed successfully. If the learning process has not been successful, the LEDs flash in the reverse order: red long, green short. A blocked actuator could be involved in the case of unicode sensors. 4. Restart the safety switch:
a) Disconnect the operating voltage. b) Apply the operating voltage again. The safety switch is in normal mode after the self-test has been carried out successfully. 108366_en_01 PHOENIX CONTACT 39 / 69 PSR-CT 6 Function test Qualified personnel The function test may only be carried out by qualified personnel. After installation After any modification After any error WARNING: Careless installation and function test may result in fatal injuries Observe the following points during installation and the function test:
Make sure that there are no persons in the danger zone. Observe the applicable regulations for accident prevention. Perform a complete check of the safety function in the following cases:
During initial startup of the machine or system During the function test, check whether the machine and the safety switch behavior is according to expectations. If the machine or the safety switch behavior is not according to expectations, the function test is not successful. WARNING: Loss of safety function due to malfunction If the function test of the safety switch is not successful, the device no longer operates properly. Replace the device. Performing the function test 6.1 Observe the LED status indicators on the sensor. See Section LED status indicators and switching states on page 43. The red DIAG LED should remain switched off during the entire function test. Proceed as follows to check the safety function of each safety switch on all safety equip-
ment. 40 / 69 PHOENIX CONTACT 108366_en_01 Starting situation: the actuator is not within the response area / the safety equipment is open. Function test 1. Switch on the operating voltage on the safety switch. Expected machine behavior:
Expected behavior of the safety switch:
The machine must not start up automatically. The green STATE LED flashes quickly, 5 Hz. The sensor is performing a self-test for 5 s, approximately. In the case of multicode and fixcode sensors:
The green STATE LED flashes cyclically: green short, off long. The sensor indicates normal mode with open safety equipment. In the case of unicode sensors:
The green STATE LED flashes cyclically: 2 x green, off long. The sensor is ready to learn. 2. Close all safety equipment. Expected machine behavior:
Expected behavior of the safety switch:
The machine must not start up automatically. For automatic startup behavior:
The green STATE LED is permanently on. The sensor indicates normal mode with closed safety equipment. For manual, monitored start behavior:
The green STATE LED flashes slowly, 1 Hz. The sensor is waiting for a start command via the reset button. 3. Enter a start command for the machine via your controller. a) If provided: press the reset button. Release it again. Expected machine behavior:
The machine starts up. Expected behavior of the safety switch:
The green STATE LED is permanently on. The sensor indicates normal mode with closed safety equipment. The machine must be switched off. It must not be possible to start the machine as long as the safety equipment is open. 4. Open the first safety equipment. Expected machine behavior:
Expected behavior of the safety switch:
The green STATE LED flashes cyclically: green short, off long. The sensor indicates normal mode with open safety equipment. 5. Repeat steps 1 to 4 individually for each safety equipment. 108366_en_01 PHOENIX CONTACT 41 / 69 PSR-CT 7 Service and maintenance The device requires no maintenance during the permissible duration of use. Repairs may not be carried out. In the event of an error, please contact Phoenix Contact. Perform the following checks regularly:
Distance measurement Check the devices and connections for the following, among other things:
Visual inspection Function test Secure mounting Contamination Perform the following, if required:
Cleaning Adjustment Observe the relevant manufacturer specifications for carrying out maintenance on con-
nected I/O devices. 42 / 69 PHOENIX CONTACT 108366_en_01 8 LED status indicators and switching states LED status indicators and switching states The following section describes the LED indicators for general states and error messages, as well as the respective switching states of the safety outputs and the signal output. In the event of an error or fault that is not listed, please contact Phoenix Contact. Table 8-1 Operating state LED status indicators and switching states Switching state FO1A DGN FO1B 1 2 3 4 5 6 7 8 9 10 11 Self-test runs 5 s, approximately e d o m l a m r o N No supply voltage Limit range monitoring: actuator leaves response area Safety equipment closed Waiting for start command Safety equipment open Wiring error: FO1B is present instead of FO1A at the START input System error, internal error r o r r E External error, OSSD cross-circuit Incorrect/disabled actuator Error at START input Manual start (stuck-at-high) Off Off On On Off Off Off Off Off Off Off Off Off Off Off On On Off Off Off On On LED indicators DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG LED is off. STATE LED regularly flashes green
(5 Hz, quick flashing). DIAG LED is off. STATE LED is off. DIAG LED flashes cyclically:
2 x red, off long. STATE LED lights up green. DIAG LED is off. STATE LED lights up green. DIAG LED is off. STATE LED regularly flashes green
(1 Hz, slow flashing). DIAG LED is off. STATE LED flashes cyclically:
green short, off long. DIAG LED is off. STATE LED regularly flashes green
(1 Hz, slow flashing). DIAG LED lights up red. STATE LED is off. DIAG LED lights up red. STATE LED flashes cyclically:
2 x off, green long. DIAG LED lights up red. STATE LED lights up green. DIAG LED lights up red. STATE LED regularly flashes green
(1 Hz, slow flashing). 108366_en_01 PHOENIX CONTACT 43 / 69 PSR-CT Table 8-1 Operating state LED status indicators and switching states 12 13 14 15 s s e c o r p g n n r a e L i Learning process not successful Learning process successful Learning process running Ready to learn Switching state FO1A DGN FO1B Off On Off Off Off On On On LED indicators DIAG STATE DIAG STATE DIAG STATE DIAG STATE DIAG and STATE LEDs flash alter-
nately: red long, green short. DIAG and STATE LEDs flash alter-
nately: red short, green long. DIAG LED is off. STATE LED flashes cyclically:
off short, green long. DIAG LED is off. STATE LED flashes cyclically:
2 x green, off long. Key:
The LED symbols have the following meaning in the respective LED color. The LED is off. The LED is permanently on. The LED flashes regularly (1 Hz, slow flashing). The LED flashes regularly (5 Hz, quick flashing). The LED executes a repeating flashing cycle. During this, the LED flashes briefly and then pauses for a longer period. The LED executes a repeating flashing cycle. During this, the LED flashes for a longer period and then pauses briefly. The LED executes a repeating flashing cycle. During this, the LED flashes 2 x briefly and then pauses for a longer period. The LED executes a repeating flashing cycle. During this, the LED goes off 2 x briefly and then lights up for a longer period. 44 / 69 PHOENIX CONTACT 108366_en_01 LED status indicators and switching states Recovery in the event of an error 8.1 1. Remove the cause. 2. Open and close the safety equipment. If the error is still indicated:
3. Restart the safety switch:
a) Disconnect the operating voltage. b) Apply the operating voltage again. If the error cannot be reset, please contact Phoenix Contact. Perform a function test after every error. See Section Function test on page 40. 108366_en_01 PHOENIX CONTACT 45 / 69 PSR-CT 9 Application examples Application information 9.1 Each of the presented application examples shows only one section that is relevant for the wiring of the PSR-CT safety switch. The user carries out the complete integration in the overall system and the safety classifica-
tion of the overall safety function. WARNING: Loss of safety function due to incorrect connection In order to guarantee the safety function, observe the following points when connecting the safety switch:
Always evaluate both safety outputs. Do not use the signal outputs as the safety outputs. Information on switch chains Connect a maximum of 30 PSR-CT safety switches in series. The safety outputs are permanently assigned to the respective safety inputs of the sub-
sequent switch: FO1A to FI1A and FO1B to FI1B. If the connections are mixed up, the switch changes to the error state. If a reset function is executed on the switching device to be evaluated, you can reset the safety function centrally. Operate the individual switches with autostart behavior. Information regarding operation on safe controllers For operating PSR-CT safety switches on safe controllers, observe the following notes and requirements:
Use a common power supply for the controller and the connected safety switch. Do not use a clocked power supply for the safety switch. Tap the supply voltage directly from the power supply unit. When connecting the supply voltage to a terminal of a safe controller, this output must supply sufficient power. Always connect safety inputs FI1A and FI1B directly to a power supply unit or to safety outputs FO1A and FO1B of another safety switch. Do not use clocked signals at safety inputs FI1A and FI1B. You can connect safety outputs FO1A and FO1B of a safety switch to the safe inputs of a controller. Requirements:
The input of the controller must be suitable for clocked safety signals (OSSD). The controller must tolerate test pulses on the input signals (can usually be param-
eterized). See Section Interface types according to ZVEI classification on page 62. 46 / 69 PHOENIX CONTACT 108366_en_01 Switch chain Central manual, monitored start Application examples 9.2 9.2.1 PSR-CT safety switches with safety relay Series connection with central reset on the switching device Application description The application example shows three PSR-CT safety switches connected in series for mon-
itoring safety equipment. The switch chain is connected to a safety relay. The safety relay evaluates the signals of the switch chain and switches connected actuators. The safety relay is equipped with a reset button for manual, monitored start. The safety switches are wired for operation with autostart. If at least one safety equipment item is opened and closed again, the safety function is reset centrally via the reset button on the switching device. Notes WARNING: Loss of functional safety Make sure that all safety switches and the safety relay have the same ground potential. WARNING: Risk due to unexpected machine startup Cross-circuit between A2 (0 V) and the cable of the reset button for connecting S34 of the safety relay can result in automatic machine startup. Also observe the documentation for all other devices used together with the safety switch. Avoid cross-circuit between A2 (0 V) and the cable from the reset button to S34 by means of design measures, e.g., protected cable installation. See fault exclusion according to EN ISO 13849-2. Phoenix Contact components used 3 x PSR-CT safety switch Safety relay: PSR-MC40-3NO-1DO-24DC-.. 108366_en_01 PHOENIX CONTACT 47 / 69 Application drawing PSR-CT-C-ACT PSR-CT-C-ACT PSR-CT-C-ACT S1 S2 S3 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B PSR-CT 24V DC F1 0V L K3 K4 S4 A1
) S12 (
) S22 (
A2 0 4 C M R S P
-
13 23 33 S34
( )
( ) M1 14 24 34 K3 K3 K4 K4 N M Figure 9-1 Series connection with central reset on the switching device Key:
S1, S2, S3 S4 FO1A, FO1B START UB DGN FI1A, FI1B A1/A2 S34 S12, S22 13/14, 23/24 K3, K4 F1 Safety switches Central reset button on the switching device Safety outputs Start/reset input 24 V DC power supply Signal output Safety inputs Power supply of the safety relay Start input of the safety relay Sensor circuit inputs of the safety relay Enabling current paths of the safety relay Positively driven contactors Fuse protection for the power supply 48 / 69 PHOENIX CONTACT 108366_en_01 Switch chain Central manual, monitored start Application examples Series connection with central reset for all safety switches 9.2.2 Application description The application example shows three PSR-CT safety switches connected in series for mon-
itoring safety equipment. The switch chain is connected to a safety relay. The safety relay evaluates the signals of the switch chain and switches connected actuators. The safety relay is wired for operation with autostart. All safety switches are equipped with a reset button for manual, monitored start. If at least one safety equipment item is opened and closed again, the safety function is reset centrally via the reset button of the safety switches. Notes WARNING: Loss of functional safety Make sure that all safety switches and the safety relay have the same ground potential. WARNING: Risk due to unexpected machine startup Cross-circuit between output FOA1 and the cable of the reset button can result in auto-
matic machine startup. Also observe the documentation for all other devices used together with the safety switch. Avoid cross-circuit between FOA1 and the cable from the reset button by means of design measures, e.g., protected cable installation. See fault exclusion according to EN ISO 13849-2. Phoenix Contact components used 3 x PSR-CT safety switch Safety relay: PSR-MC40-3NO-1DO-24DC-.. 108366_en_01 PHOENIX CONTACT 49 / 69 PSR-CT 24V DC F1 Application drawing S4 PSR-CT-C-ACT PSR-CT-C-ACT PSR-CT-C-ACT S1 S2 S3 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B 0V L PSR-MC40 A1 13 23 33
) S12 (
) S22 (
( ) S34
( ) M1 A2 14 24 34 K3 K3 K3 K4 K4 K4 N M Figure 9-2 Series connection with central reset for all safety switches Key:
S1, S2, S3 S4 FO1A, FO1B START UB DGN FI1A, FI1B A1/A2 S34 S12, S22 13/14, 23/24 K3, K4 F1 Safety switches Central reset button on the first safety switch Safety outputs Start/reset input 24 V DC power supply Signal output Safety inputs Power supply of the safety relay Start input of the safety relay Sensor circuit inputs of the safety relay Enabling current paths of the safety relay Positively driven contactors Fuse protection for the power supply 50 / 69 PHOENIX CONTACT 108366_en_01 Switch chain Local manual, monitored start Application examples Series connection with local reset on all safety switches 9.2.3 Application description The application example shows three PSR-CT safety switches connected in series for mon-
itoring safety equipment. The switch chain is connected to a safety relay. The safety relay evaluates the signals of the switch chain and switches connected actuators. The safety relay is wired for operation with autostart. Each safety switch is equipped with a local reset button for manual, monitored start. If at least one safety equipment item is opened and closed again, the safety function expects a reset command locally at the affected switch and at all subsequent switches in the chain. Notes WARNING: Loss of functional safety Make sure that all safety switches and the safety relay have the same ground potential. WARNING: Risk due to unexpected machine startup Cross-circuit between output FOA1 and the cable of the reset button can result in auto-
matic machine startup. Also observe the documentation for all other devices used together with the safety switch. Avoid cross-circuit between FOA1 and the cable from the reset button by means of design measures, e.g., protected cable installation. See fault exclusion according to EN ISO 13849-2. Phoenix Contact components used 3 x PSR-CT safety switch Safety relay: PSR-MC40-3NO-1DO-24DC-.. 108366_en_01 PHOENIX CONTACT 51 / 69 PSR-CT 24V DC F1 0V Application drawing S4 S5 S6 L PSR-CT-C-ACT PSR-CT-C-ACT PSR-CT-C-ACT S1 S2 S3 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B PSR-MC40 A1 13 23 33
) S12 (
) S22 (
( ) S34
( ) M1 A2 14 24 34 K3 K3 K3 K4 K4 K4 N M Figure 9-3 Series connection with local reset on all safety switches Key:
S1, S2, S3 S4, S5, S6 FO1A, FO1B START UB DGN FI1A, FI1B A1/A2 S34 S12, S22 13/14, 23/24 K3, K4 F1 Safety switches Local reset button on the safety switches Safety outputs Start/reset input 24 V DC power supply Signal output Safety inputs Power supply of the safety relay Start input of the safety relay Sensor circuit inputs of the safety relay Enabling current paths of the safety relay Positively driven contactors Fuse protection for the power supply 52 / 69 PHOENIX CONTACT 108366_en_01 Switch chain Mixed startup behavior Application examples Series connection with mixed startup behavior 9.2.4 Application description The application example shows three PSR-CT safety switches connected in series for mon-
itoring safety equipment. The switch chain is connected to a safety relay. The safety relay evaluates the signals of the switch chain and switches connected actuators. The safety relay is wired for operation with autostart. The first safety switch is equipped with a reset button for manual, monitored start. The other safety switches are wired for operation with autostart. If the first safety equipment item is opened and closed again, the safety function expects a local reset command for the first safety switch. All the other safety switches start automati-
cally after the relevant safety equipment was closed again. Notes WARNING: Loss of functional safety Make sure that all safety switches and the safety relay have the same ground potential. WARNING: Risk due to unexpected machine startup Cross-circuit between output FOA1 and the cable of the reset button can result in auto-
matic machine startup. Also observe the documentation for all other devices used together with the safety switch. Avoid cross-circuit between FOA1 and the cable from the reset button by means of design measures, e.g., protected cable installation. See fault exclusion according to EN ISO 13849-2. Phoenix Contact components used 3 x PSR-CT safety switch Safety relay: PSR-MC40-3NO-1DO-24DC-.. 108366_en_01 PHOENIX CONTACT 53 / 69 PSR-CT 24V DC 0V S4 L PSR-CT-C-ACT PSR-CT-C-ACT PSR-CT-C-ACT S1 S2 S3 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B PSR-MC40 A1 13 23 33
) S12 (
) S22 (
( ) S34
( ) M1 A2 14 24 34 K3 K3 K3 K4 K4 K4 N M Figure 9-4 Series connection with mixed startup behavior Key:
S1, S2, S3 S4 FO1A, FO1B START UB DGN FI1A, FI1B A1/A2 S34 S12, S22 13/14, 23/24 K3, K4 F1 Safety switches Central reset button on the first safety switch Safety outputs Start/reset input 24 V DC power supply Signal output Safety inputs Power supply of the safety relay Start input of the safety relay Sensor circuit inputs of the safety relay Enabling current paths of the safety relay Positively driven contactors Fuse protection for the power supply 54 / 69 PHOENIX CONTACT 108366_en_01 Switch chain Central manual, monitored start Application examples 9.3 PSR-CT safety switch connected to a safe controller Application description The application example shows three PSR-CT safety switches connected in series for mon-
itoring safety equipment. The switch chain is connected to a safe controller. The safe controller is equipped with a reset button for manual, monitored start. The safety switches are wired for operation with autostart. If at least one safety equipment item is opened and closed again, the safety function is reset centrally via the reset button on the safe controller. Notes WARNING: Loss of functional safety Make sure that all safety switches and the safe controller have the same ground potential. Also observe the documentation for all other devices used together with the safety switch. Phoenix Contact components used 3 x PSR-CT safety switch 108366_en_01 PHOENIX CONTACT 55 / 69 PSR-CT 24V DC F1 Application drawing PSR-CT-C-ACT PSR-CT-C-ACT PSR-CT-C-ACT S1 S2 S3 S4 SIS / FS-PLC Logic I/O 24V GND 0V 0V DI1 DI2 DI3 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 PSR-CT-...-SEN-1-8 UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B UB START FO1A 0V DGN FO1B FI1A FI1B 0V Figure 9-5 PSR-CT safety switch connected to a safe controller Key:
S1, S2, S3 S4 FO1A, FO1B START UB DGN FI1A, FI1B SIS / FS-PLC DI1 ... DI3 F1 Safety switches Central reset button at the safe controller Safety outputs Start/reset input 24 V DC power supply Signal output Safety inputs Safety Instrumented System / failsafe controller Digital inputs Fuse protection for the power supply 56 / 69 PHOENIX CONTACT 108366_en_01 Technical data and ordering data 10 Technical data and ordering data 10.1 Technical data 10.1.1 System properties of safety switches Technology Actuation positions Travel directions Coding type Depending on the sensor used Encoding level according to EN ISO 14119 Depending on the sensor used Design according to EN ISO 14119 System properties of safety switches RFID transponder technology 4 (A, B, C, D) 3 (x, y, z direction) PSR-CT-F-SEN-1-8 PSR-CT-C-SEN-1-8 PSR-CT-M-SEN-1-8 PSR-CT-F-SEN-1-8 PSR-CT-C-SEN-1-8 PSR-CT-M-SEN-1-8 4 Fixcode Unicode Multicode High High Low 10.1.2 Technical data for the sensors Dimensions/weight Dimensions (W/H/D) Net weight (SAP) Dimensional drawing 26.5 x 40 x 18 80 g 18 M12 26,5 19
, 5 3 1 0 4
, 8 4 8 2 2 Ambient conditions Ambient temperature (operation) Ambient temperature (storage/transport) Vibration (operation) EMC conformity
-25 C ... 55 C
-40 C ... 70 C According to EN 60947-5-2 According to EN 60947-5-3 108366_en_01 PHOENIX CONTACT 57 / 69 PSR-CT Mounting Mounting position Mounting type Minimum distance Assembly instruction Connection data Connection technology Number of positions General data Housing material Color Status indicator Degree of protection Protection class Pollution degree Rated insulation voltage Rated surge voltage Conditional short-circuit current Switching frequency Supply Supply voltage UB Current consumption IUB Protection Safety outputs Designation Output description Number of outputs Short-circuit proof Output voltage Switching current Any Not flush 140 mm (between two safety switches) 7 mm (between sensor and actuator when traveling in y direction) Observe EN ISO 14119 Maximum tightening torque for mounting: 0.8 Nm M12 connectors 8 PBT Yellow 2 LEDs IP65/IP67/IP69/IP69K IP67 (with SAC cabling) III 3 300 V, maximum 1.5 kV, maximum 100 A, typical 1 Hz, maximum 24 V DC 15 % (PELV, controlled, residual ripple <5 %) 40 mA, maximum 0.25 A, minimum (to be performed externally) 8 A, maximum (to be performed externally) FO1A, FO1B Semiconductor outputs, sourcing 2 Yes UB - 1.5 V, minimum (HIGH FO1A, FO1B)) UB, maximum (HIGH FO1A, FO1B)) 0 V DC, minimum (LOW FO1A/FO1B) 1 V DC, maximum (LOW FO1A/FO1B) 1 mA, minimum (per safety output) 150 mA, maximum (per safety output) 58 / 69 PHOENIX CONTACT 108366_en_01 Safety outputs Utilization category according to IEC 60947-5-2 Note on protective circuit Residual current Signal outputs Designation Output description Number of outputs Short-circuit proof Output voltage Current IDGN Times Switch-on delay Risk time according to EN 60947-5-3 Delay time Switch-on time Discrepancy time Test pulses Technical data and ordering data 150 mA (24 V (DC13)) NOTE: Protect the outputs under inductive loads with a free-
wheeling diode. 0.25 mA DGN Sourcing 1 Yes UB - 1.5 V, minimum (HIGH) UB, maximum (HIGH) 0 V DC, minimum (LOW) 1 V DC, maximum (LOW) 1 mA, minimum 50 mA, maximum 5 s, typical (after switching on UB) 125 ms, maximum (stand-alone device) 10 ms, typical (risk time delay per device) 400 ms, maximum (of the safety outputs) 10 ms, maximum (between the safety outputs) 300 s, typical (test pulse duration) 100 ms, approximately (test pulse interval) 108366_en_01 PHOENIX CONTACT 59 / 69 10.1.3 Technical data for the actuator PSR-CT Dimensions/weight Dimensions (W/H/D) Net weight (SAP) Dimensional drawing 26.5 x 40 x 18 30 g 18 0 4
-25 C ... 55 C
-40 C ... 70 C 26,5 19 16 13 2 2
, 8 4 8 Active surface opposite of the sensor Not flush 140 mm (between two safety switches) 7 mm (between sensor and actuator when traveling in y direction) Observe EN ISO 14119 Maximum tightening torque for mounting: 0.8 Nm PBT Yellow IP65/IP67/IP69/IP69K Inductively, via the sensor Ambient conditions Ambient temperature (operation) Ambient temperature (storage/transport) Mounting Mounting position Mounting type Minimum distance Assembly instruction General data Housing material Color Degree of protection Power supply 60 / 69 PHOENIX CONTACT 108366_en_01 Switching distances: actuation position A, B when traveling in X direction Technical data and ordering data Assured release distance Sar Repeat accuracy Additional values Table 3-1 Minimum distances and switching distances in Section Positioning and distances on page 26. Switching distances: actuation position C, D when traveling in X direction A B
+Z X Y
-Z Switch-on distance, typical Assured operation distance Sao Switching hysteresis C D X Y Z Switch-on distance, typical Assured operation distance Sao Switching hysteresis 13 mm, typical 10 mm (position A) 9 mm (position B) 1 mm, minimum 2 mm, typical 20 mm, maximum 10 %
7 mm, typical Position C:
3 mm Position D:
2 mm 1 mm, minimum 2 mm, typical 17 mm, maximum 10 %
Assured release distance Sar Repeat accuracy Additional values Table 3-1 Minimum distances and switching distances in Section Positioning and distances on page 26. 108366_en_01 PHOENIX CONTACT 61 / 69 PSR-CT 10.1.4 Safety-related characteristics Safety characteristics according to EN ISO 13849-1:2015 4 Category e Performance level Duration of use 240 months Safety-related characteristics for IEC 61508 SIL PFHD 3 6 x 10-10 1/h Interface types according to ZVEI classification 10.1.5 Safety outputs FO1A, FO1B Source/
drain Interface type Additional measure Source/
drain Suitable interface type C1 Suitable interface type C2 Source Additional measure M C2 Outputs are not types according to IEC 61131-2 Drain M Approvals 10.1.6 See phoenixcontact.com for the latest approvals. 62 / 69 PHOENIX CONTACT 108366_en_01 10.2 Ordering data Technical data and ordering data Low encoding level Products Description Sensor for contact-free safety switch Fixcode coding type High encoding level Sensor for contact-free safety switch Unicode coding type High encoding level Sensor for contact-free safety switch Multicode coding type Actuator for contact-free safety switch Coded Compatible with all sensor coding types Accessories Description Dummy plugs for each PSR-CT safety switch sensor cir-
cuit Type 1 Y distributor for series connection of PSR-CT safety switches Type 2 Y distributor for manual startup behavior of PSR-CT safety switches Type 3 Y distributor for integrated diagnostics via the signal contact in the case of PSR-CT safety switches Type PSR-CT-F-SEN-1-8 Order No. 2702976 Pcs./Pkt. 1 PSR-CT-C-SEN-1-8 2702972 PSR-CT-M-SEN-1-8 2702975 PSR-CT-C-ACT 2702973 1 1 1 Type SAC-5P-M12MS BK BR 1-2-4 Order No. 1054366 Pcs./Pkt. 1 SAC-8PY-M/2XF BK 1-PSR SAC-8PY-M/2XF BK 2-PSR SAC-8PY-M/2XF BK 3-PSR 1054338 1054339 1054341 1 1 1 108366_en_01 PHOENIX CONTACT 63 / 69 PSR-CT A Technical appendix Explanation of switching distances A 1 For detailed values of the switching distances, please refer to Table 3-1 Minimum dis-
tances and switching distances in Section Positioning and distances on page 26. Assured operation distance Sao according to EN 60947-5-3
(Description adapted) Distance from the active surface of the sensor, within which the presence of the actuator is properly detected, while considering all specified ambient conditions and tolerances. Assured release distance Sar according to EN 60947-5-3
(Description adapted) Distance from the active surface of the sensor, outside of which the absence of the actuator is properly detected, while considering all specified ambient conditions and tolerances. Typical switch-on distance Styp Typical distance for switching on safety outputs. Switching hysteresis Defined distance range in which the sensor detects the actuator, but does not initiate a switching operation of the safety outputs. In this way, the switching hysteresis prevents unin-
tended switching of the safety outputs in the case of vibrations. Repeat accuracy The switching operation at a certain switching distance is repeated with this accuracy in the case of the same switching distance. Actuator moves away s t u p t u O on o i g n h c t i w S i s s e r e t s y h Actuator approaches Sao Styp Figure A-1 Schematic view of the switching distances Sar Distance 64 / 69 PHOENIX CONTACT 108366_en_01 Explanation of the typical system times Explanation of the typical system times A 2 The values for the typical system times can be found in the technical data. See Times in Section Technical data on page 57. Switch-on delay The sensor performs a self-test when the operating voltage is switched on. Only after this time is the safety switch ready for operation. Switch-on time of the safety outputs The maximum switch-on time of the safety outputs applies starts when the actuator is in the response area and ends when the safety outputs are switched on. Synchronous activation monitoring of the safety inputs If the safety inputs have a different switching state over a certain time, the safety outputs are switched off. The safety switch changes to the error state. Risk time according to EN 60947-5-3
(Description adapted) If the actuator leaves the response area of the sensor, the safety outputs are switched off when the risk time has elapsed at the latest. If several safety switches are operated in a series connection, the risk time of the entire switch chain increases with every additional device. Use the following formula to calculate the risk time for a switch chain:
tr tr tr,e tl n Discrepancy time The safety outputs are switched at a slight offset. The safety outputs have the same state as soon as the discrepancy time has elapsed at the latest. Test pulses on the safety outputs The safety outputs generate test pulses:
When switched on When switched off during device startup Downstream devices have to tolerate these test pulses.
= tr,e + (n x tl)
= Total risk time
= Risk time of an individual device (see technical data)
= Risk time delay for each device (see technical data)
= Number of additional devices (total number - 1) 108366_en_01 PHOENIX CONTACT 65 / 69 PSR-CT FCC / IC conformity A 3 FCC FCC ID: YG3-PSR1 This device complies with Part 15 of the FCC rules. Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to operate the equipment. NOTE: Interference This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of the FCC rules. These limits are designed to provide reaso-
nable protection against harmful interference when the equipment is operated in a com-
mercial environment. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cau-
se harmful interference to radio communications. Operation of this equipment in a resi-
dential area is likely to cause harmful interference, in which case, the user will be required to correct the interference at his own expense. IC IC certificate: 4720B-PSR1 This device contains licence-exempt transmitter(s)/receiver(s) that comply with Innovation, Science and Economic Development Canadas licence-exempt RSS(s). Operation is subject to the following two conditions:
(1) This device may not cause interference.
(2) This device must accept any interference, including interference that may cause undesi-
red operation of the device. Lmetteur/rcepteur exempt de licence contenu dans le prsent appareil est conforme aux CNR dInnovation, Sciences et Dveloppement conomique Canada applicables aux ap-
pareils radio exempts de licence. Lexploitation est autorise aux deux conditions suivantes :
(1) Lappareil ne doit pas produire de brouillage;
(2) Lappareil doit accepter tout brouillage radiolectrique subi, mme si le brouillage est su-
sceptible den compromettre le fonctionnement. 66 / 69 PHOENIX CONTACT 108366_en_01 Revision history Date 2018-06-13 2019-01-25 B Revision history Contents Revision First publication 00 Revision of the sensors increased 01 Reference to Appendix A 3 FCC / IC conformity in Section 1.5, Directives and standards added Picture frame for Figure 2-4 and Figure 2-5 inserted Risk time according to EN 60947-5-3 and delay time of the risk time changed Publication year for EN ISO 13849-1: 2015 inserted Appendix A 3 FCC / IC conformity inserted Page 2 11 23 59 62 66 108366_en_01 PHOENIX CONTACT 67 / 69 Please observe the following notes General terms and conditions of use for technical documentation Phoenix Contact reserves the right to alter, correct, and/or improve the technical documentation and the products described in the technical documentation at its own discretion and without giving prior notice, insofar as this is reasonable for the user. The same applies to any technical changes that serve the purpose of technical progress. The receipt of technical documentation (in particular user documentation) does not constitute any further duty on the part of Phoenix Contact to furnish information on modifications to products and/or technical documentation. You are responsible to verify the suitability and intended use of the products in your specific application, in particular with regard to observing the applicable standards and regulations. All information made available in the technical data is supplied without any accompanying guarantee, whether expressly mentioned, implied or tacitly assumed. In general, the provisions of the current standard Terms and Conditions of Phoenix Contact apply exclusively, in particular as concerns any warranty liability. This manual, including all illustrations contained herein, is copyright protected. Any changes to the contents or the publication of extracts of this document is prohibited. Phoenix Contact reserves the right to register its own intellectual property rights for the product identifications of Phoenix Contact products that are used here. Registration of such intellectual property rights by third parties is prohibited. Other product identifications may be afforded legal protection, even where they may not be indicated as such. 68 / 69 PHOENIX CONTACT 69 Internet Subsidiaries Published by How to contact us Up-to-date information on Phoenix Contact products and our Terms and Conditions can be found on the Internet at:
phoenixcontact.com Make sure you always use the latest documentation. It can be downloaded at:
phoenixcontact.net/products If there are any problems that cannot be solved using the documentation, please contact your Phoenix Contact subsidiary. Subsidiary contact information is available at phoenixcontact.com. PHOENIX CONTACT GmbH & Co. KG Flachsmarktstrae 8 32825 Blomberg GERMANY Should you have any suggestions or recommendations for improvement of the contents and layout of our manuals, please send your comments to:
tecdoc@phoenixcontact.com 69 / 69 PHOENIX CONTACT GmbH & Co. KG Flachsmarktstrae 8 32825 Blomberg Germany phoenixcontact.com
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2019-02-20 | 0.125 ~ 0.125 | DCD - Part 15 Low Power Transmitter Below 1705 kHz | Change in identification of presently authorized equipment. Original FCC ID: 2AJ58-01 Grant Date: 07/05/2018 |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 | Effective |
2019-02-20
|
||||
1 | Applicant's complete, legal business name |
Phoenix Contact GmbH & Co. KG
|
||||
1 | FCC Registration Number (FRN) |
0019879626
|
||||
1 | Physical Address |
Flachsmarktstrasse 8
|
||||
1 |
Blomberg, 32825
|
|||||
1 |
Germany
|
|||||
app s | TCB Information | |||||
1 | TCB Application Email Address |
T******@ctcadvanced.com
|
||||
1 | TCB Scope |
A1: Low Power Transmitters below 1 GHz (except Spread Spectrum), Unintentional Radiators, EAS (Part 11) & Consumer ISM devices
|
||||
app s | FCC ID | |||||
1 | Grantee Code |
YG3
|
||||
1 | Equipment Product Code |
PSR1
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 | Name |
A****** P****
|
||||
1 | Title |
Senior Manager Wireless and Fibre Optics
|
||||
1 | Telephone Number |
+49-5********
|
||||
1 | Fax Number |
+49-5********
|
||||
1 |
a******@phoenixcontact.com
|
|||||
app s | Technical Contact | |||||
n/a | ||||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
1 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 | Equipment Class | DCD - Part 15 Low Power Transmitter Below 1705 kHz | ||||
1 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | PSRswitch | ||||
1 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 | Modular Equipment Type | Does not apply | ||||
1 | Purpose / Application is for | Change in identification of presently authorized equipment. Original FCC ID: 2AJ58-01 Grant Date: 07/05/2018 | ||||
1 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | No | ||||
1 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 | Firm Name |
CTC advanced GmbH (former CETECOM ICT Services )
|
||||
1 | Name |
G**** S******
|
||||
1 | Telephone Number |
49-68********
|
||||
1 | Fax Number |
49-68********
|
||||
1 |
t******@ctcadvanced.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 0.12500000 | 0.12500000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC