DriveGuard Safe Torque Off Option (Series B) for PowerFlex 40P
Contents
1. IMPORTANT By itself the Safe Torque Off option initiates a coast to stop action Additional protective measures will need to be applied when an application requires a change to the stop action 18 Figure 8 PowerFlex 40P Drive Safe Torque Off Circuitry ACLine Input Power PowerFlex 40P AC Drive 24V DC Stop Start Gate Control From Microcontroller Safe Off Option Safety i PIN Channel Z au Gate Control A Circuit Common Safety Channel gt Enable Rockwell Automation Publication PFLEX UM003B EN P July 2012 Description of Operation PowerFlex 70 Safe Torque Off Operation The PowerFlex 70 DriveGuard Safe Torque Off option see Figure 9 disables the drive s output IGBT s by disconnecting the gate control power supply When used in combination with a second safety channel the Enable input the system satisfies the requirements of EN ISO 13849 1 Category 3 PL d for Safe Torque Off and helps protect against restart Under normal drive operation the Safe Torque Off relay is energized the enable input is energized and gate control power is available to the gate control circuit If either of these inputs is de energized the gate control circuit is disabled To meet EN ISO 13849 1 Category 3 PL d operation both safety channels must be de energized Refer to the following examples fo2. DC terminals or test points refer to your drive s User Manual for locations The voltage must be zero ATTENTION To avoid an electric shock hazard verify that the voltage on the bus Rockwell Automation Publication PFLEX UM003B EN P July 2012 11 Installation and Wiring 2 Remove the protective plug covering the PowerFlex 40P Safe Torque Off connector shown in Figure 1 Figure 1 PowerFlex 40P Protective Plug a D BDA A DANGER j i 3 Remove the PowerFlex 40P Safe Torque Off connection jumper shown in Figure 2 Figure 2 PowerFlex 40P Safe Torque Off Connection Jumper Location ADANGER 12 Rockwell Automation Publication PFLEX UM003B EN P July 2012 Installation and Wiring 4 Remove the PowerFlex 40P Hardware Enable jumper shown in Figure 3 Figure 3 PowerFlex 40P Hardware Enable Jumper Location IMPORTANT The PowerFlex 40P hardware enable jumper must be removed when using the DriveGuard Safe Torque Off option Failure to remove the jumper will cause the drive to fault when a start command is issued 5 Plug the DriveGuard Safe Torque Off option Series B or greater into the PowerFlex 40P four pin Safe Torque Off connector as shown in Figure 4 0 8 1 1 Nem 7
3. d e EN IEC 61800 5 2 2007 Adjustable speed electrical power drive systems Part 5 2 Safety requirements Functional DriveGuard Safe Torque Off option drive achieves SIL CL 2 e EN IEC 62061 2005 Safety of machinery Functional safety of safety related electrical electronic and programmable electronic control systems e IEC 61508 Part 1 7 1998 and 2000 Functional safety of electrical electronic programmable electronic safety related systems Parts 1 7 TUV also certifies that the DriveGuard Safe Torque Off option may be used in applications up to Category 3 PL d according to EN ISO 13849 1 and SIL 2 according to EN IEC 62061 IEC 61508 EN IEC 61800 5 2 TUV Rheinland certificate 01 205 0665 09 may be found at www rockwellautomation com products certification Rockwell Automation Publication PFLEX UM003B EN P July 2012 3 General Description CE Certification LV Directive 2006 95 EC Rockwell Automation declares the PF40P and PF70 drives compliant with the CE LV Directive as demonstrated by compliance with the requirements of EN 50178 Electronic equipment for use in power installations The DriveGuard Safe Torque Off Option Kit is not within the scope of the Low Voltage Directive EMC Directive 2004 108 EC Rockwell Automation declares the PF40P 240V 480V PF70 240V 400V 480V and DriveGuard Safe Torque Off option compliant with the CE EMC Directive as demonstrated by compliance with the requireme
4. probable cause of the failure o Rockwell Automation Publication PFLEX UM003B EN P July 2012 Installation and Wiring Installation and Wiring Pre Installation Instructions Installation must be in accordance with the following steps and must be carried out by competent personnel The DriveGuard Safe Torque Off option is intended to be part of the safety related control system of a machine Before installation a risk assessment should be performed that compares the DriveGuard Safe Torque Off option specifications and all foreseeable operational and environmental characteristics of the machine to which it is to be fitted In no case should be DriveGuard Safe Torque Off option be used in a PowerFlex 40P or PowerFlex 70 drive where the maximum surrounding air temperature shock or vibration specifications of the drive are exceeded PowerFlex 70 Maximum Surrounding Air Temperature without derating 1P20 NEMA UL Type 1 0 50 C 32 122 F Flange Mount 0 50 C 32 122 F 1P66 NEMA UL Type 4X 12 0 40 C 32 104 F PowerFlex 40P_ Maximum Surrounding Air Temperature without derating 1P20 Open Type 10 50 C 14 122 F 1P30 NEMA 1 UL Type 1 10 40 C 14 104 F Flange and Plate Mount Heatsink 10 40 C 14 104 F Drive 10 50 C 14 122 F Both Drives Shock 15 g peak for 11 ms duration 1 0 ms Vibration 0 152 mm 0 006 in displacement 1 g peak A safet
5. 10 Ibein it 6 Tighten screw to 0 8 1 1 Nem 7 10 Ibein PowerFlex 70 Enhanced Control Drives 1 Remove the PowerFlex 70 Safe Torque Off Connection jumper as shown in Figure 5 Rockwell Automation Publication PFLEX UM003B EN P July 2012 13 Installation and Wiring Figure 5 PowerFlex 70 Safe Torque Off Connection Jumper Location Typical RO e j 0900 SAFE OFF CONN TiaseTeIDICS 2 Remove the PowerFlex 70 Hardware Enable jumper as shown in Figure 6 Figure 6 PowerFlex 70 Hardware Enable Jumper Location Typical 000090 EEEN EEEE IMPORTANT The PowerFlex 70 hardware enable jumper must be removed when using the DriveGuard Safe Torque Off option Failure to remove the jumper will cause the drive to fault when a start command is issued 3 Plug the DriveGuard Safe Torque Off option Series A or greater into the PowerFlex 70 four pin connector as shown in Figure 7 14 Rockwell Automation Publication PFLEX UM003B EN P July 2012 Installation
6. 12 Description of Operation Notes Rockwell Automation Publication PFLEX UM003B EN P July 2012 23 PN 163523 U S Allen Bradley Drives Technical Support Tel 1 262 512 8176 Fax 1 262 512 2222 Email support drives ra rockwell com Online www ab com support abdrives www rockwellautomation com Power Control and Information Solutions Headquarters Americas Rockwell Automation 1201 South Second Street Milwaukee WI 53204 2496 USA Tel 1 414 382 2000 Fax 1 414 382 4444 Europe Middle East Africa Rockwell Automation Pegasus Park De Kleetlaan 12a 1831 Diegem Belgium Tel 32 2 663 0600 Fax 32 2 663 0640 Asia Pacific Rockwell Automation Level 14 Core F Cyberport 3 100 Cyberport Road Hong Kong Tel 852 2887 4788 Fax 852 2508 1846 Publication PFLEX UMO003B EN P July 2012 Supersedes PFLEX UM003A EN P June 2006 Copyright 2012 Rockwell Automation Inc All rights reserved Printed in USA
7. ISO 13849 1 IEC 61508 and EN IEC 62061 standards for complete information on requirements for PL and SIL determination PFD and PFH Definitions Safety related systems can be classified as operating in either a Low Demand mode or in a High Demand Continuous mode e Low Demand mode where the frequency of demands for operation made on a safety related system is no greater than one per year or no greater than twice the proof test frequency e High Demand Continuous mode where the frequency of demands for operation made on a safety related system is greater than once per year or greater than twice the proof test interval N Rockwell Automation Publication PFLEX UM003B EN P July 2012 General Description The SIL value for a low demand safety related system is directly related to order of magnitude ranges of its average probability of failure to satisfactorily perform its safety function on demand or simply average probability of failure on demand PFD The SIL value for a High Demand Continuous mode safety related system is directly related to the probability of a dangerous failure occurring per hour PFH PFD and PFH Data These PFD and PFH calculations are based on the equations from Part 6 of IEC 61508 and show worst case values This table provides data for a 20 year proof test interval and demonstrates the worst case effect of various configuration changes on the data PowerFlex 40P PFD and PFH
8. User Manual Allen Bradley OR DriveGuard Safe Torque Off Option Series B for PowerFlex 40P and PowerFlex 70 Enhanced Control AC Drives Catalog Number 20A DG01 Topic Page General Description 2 What Is the DriveGuard Safe Torque Off Option 2 Certifications and Compliance 3 CE Certification 4 Certified Equipment 5 Important Safety Considerations 5 Safe State 6 Safety Category 3 PL d Performance Definition 6 Stop Category Definitions 7 Performance Level and Safety Integrity Level SIL CL2 7 PFD and PFH Definitions 7 PFD and PFH Data 8 Functional Proof Tests 9 Contact Information if Safety Option Failure Occurs 9 Installation and Wiring 10 Pre Installation Instructions 10 EMC Considerations 11 DriveGuard Safe Torque Off Option Installation 11 Wiring 15 Verify Operation 16 Description of Operation 18 PowerFlex 40P Safe Torque Off Operation 18 PowerFlex 70 Safe Torque Off Operation 19 Connection Examples 20 Original Instructions Rockwell Allen Bradley Rockwell Software Automation General Description General Description The DriveGuard Safe Torque Off option when used with PowerFlex 40P or PowerFlex 70 drives together with other safety components provides a safety function which inhibits torque generation in the motor s powered by the drive When used with PowerFlex 40P or PowerFlex 70 drive the DriveGuard Safe Torque Off option has been c
9. able Important The drive Enable digital input is a solid state circuit The safety outputs on safety module must not be configured for Pulsed Safety Pulse Test Circuit Status Circuit shown with guard door closed and system ready for normal drive operation Operating Principle This is a dual channel system with monitoring of the Safe Torque Off circuit and drive Opening the guard door will switch the input circuits S11 S12 amp 21 S22 to the Minotaur monitoring safety relay unit The output circuits 13 14 issue a Stop command to the drive and cause a controlled deceleration After the programmed delay the timed output circuits 47 48 amp 57 58 will cause the Safe Torque Off option and the drive Enable circuit to trip Ifthe motor is rotating when the trip occurs it will coast to stop To restart the drive the Minotaur safety relay must first be reset followed by a valid start command to the drive Fault Detection A single fault detected on the Minotaur safety input circuits will result in the lock out of the system at the next operation and will not cause loss of the safety function If the Safe Torque Off option sticks ON the motor will stop on command due to the enable input The system cannot be reset when this fault condition exists Rockwell Automation Publication PFLEX UM003B EN P July 2012 21 Description of Operation Notes 22 Rockwell Automation Publication PFLEX UM003B EN P July 20
10. and Wiring Figure 7 PowerFlex 70 Safe Torque Off Connector 0 8 1 1 Nem 7 10 Ib in 4 Tighten screw to 0 8 1 1 Nem 7 10 Ibein 2oTaseTesO IDS ou Wiring Important points to remember about wiring e Always use copper wire e Wire with an insulation rating of 600V or greater is recommended e Control wires should be separated from power wires by at least 0 3 meters 1 foot DriveGuard Safe Torque Off Option Terminal Block Specifications Wire Size Range Torque Recommended 0 22 Nem 1 9 Ibein Minimum Maximum 0 14mm2 0 25 Nem 26 AWG 2 2 Ibsin Maximum 1 Maximum minimum that the terminal block will accept these are not recommendations Wire Types Wire Type s Description Minimum Insulation Rating Unshielded Per US NEC or applicable national or 300V local code 60 degrees C Shielded Multi conductor shielded cable such 0 750 mm 18 AWG 140 degrees F as Belden 8770 or equiv 3 conductor shielded Rockwell Automation Publication PFLEX UM003B EN P July 2012 15 Installation and Wiring DriveGuard Safe Torque Off Option Terminal Description No Signal Description 1 Monitor N C Normally closed contacts for monitoring 2 Common N C relay status Maximum Resistive Load 250V AC 30V DC 50 VA 60 Watts O Maximum Inductive Load 250V AC 30V DC 25 VA 30 Watts 4321 24V DC Connections
11. cation Rockwell Automation Publication PFLEX UM003B EN P July 2012 uw General Description Safe State The DriveGuard Safe Torque Off option is intended for use in safety related applications where the de energized state is the safe state All of the examples in the Description of Operation section are based on achieving the de energization as the safe state Safety Category 3 PL d Performance Definition To achieve Safety Category 3 PL d according to EN ISO 13849 1 the safety related parts have to be designed such that the safety related parts of machine control systems and or their protective equipment as well as their components shall be designed constructed selected assembled and combined in accordance with relevant standards so that they can withstand expected conditions well tried safety principles shall be applied a single fault in any of its parts does not lead to a loss of safety function some but not all faults will be detected the accumulation of undetected faults can lead to loss of safety function short circuits in the external wiring of the safety inputs is not one of the faults that can be detected by the system therefore according to EN ISO 13849 2 these cables must be installed so as to be protected against external damage by cable ducting or armor whenever reasonably practical a single fault shall be detected at or before the next demand of the safety function the average
12. diagnostic coverage of the safety related parts of the control system shall be low the mean time to dangerous failure of each of the redundant channels shall be low to high Rockwell Automation Publication PFLEX UM003B EN P July 2012 General Description Stop Category Definitions The selection of a stop category for each stop function must be determined by a risk assessment e Stop Category 0 is achieved with immediate removal of power to the actuator resulting in an uncontrolled coast to stop See Description of Operation Example 1 on page 20 e Stop Category 1 is achieved with power available to the machine actuators to achieve the stop Power is removed from the actuators when the stop is achieved See Description of Operation Example 2 on page 21 IMPORTANT When designing the machine application timing and distance should be considered for a coast to stop Stop Category 0 or Safe Torque Off For more information regarding stop categories refer to EN IEC 60204 1 Performance Level and Safety Integrity Level SIL CL2 For safety related control systems Performance Level PL according to EN ISO 13849 1 and SIL levels according to IEC 61508 and EN IEC 62061 include a rating of the system s ability to perform its safety functions All of the safety related components of the control system must be included in both a risk assessment and the determination of the achieved levels Refer to the EN
13. el system with monitoring of the Safe Torque Off circuit and drive Opening the guard door will switch the input circuits S13 S14 amp 21 S22 to the Minotaur monitoring safety relay unit The output circuits 13 14 amp 23 24 will cause the Safe Torque Off option and drive Enable circuit to trip and the motor will coast to stop To restart the drive the Minotaur safety relay must first be reset followed by a valid start command to the drive Fault Detection A single fault detected on the Minotaur safety input circuits will result in the lock out of the system at the next operation and will not cause loss of the safety function If the Safe Torque Off option sticks ON the motor will stop on command due to the enable input The system cannot be reset when this fault condition exists Rockwell Automation Publication PFLEX UM003B EN P July 2012 Description of Operation Example 2 Safe Torque Off Connection with Controlled Stop Action Dual Channel Figure 11 Stop Category 1 Controlled ACLine Input Power Minotaur MSR138DP Safe Off Option x2 x x4 v39 v40 38 48 CI GuardMaster Trojan PowerFlex AC Drive 24V DC Stop O Start 552 512 522 37 47 I 57 13 23 33 534 DB AZ Common En
14. erFlex 70 Enhanced 240V Y Series A or greater Control 400V Y Series A or greater 480V Y Series A or greater ATTENTION Hazard of injury exists due to electric shock Only install a Series B or greater DriveGuard Safe Torque Off option in a PowerFlex 40P Drive Certifications Online See the Product Certifications link at http ab com for Declarations of Conformity Certificates and other certifications details Important Safety Considerations The system user is responsible for e the set up safety rating and validation of any sensors or actuators connected to the system e completing a system level risk assessment and reassessing the system any time a change is made e certification of the system to the desired safety performance level e project management and proof testing e programming the application software and the safety option configurations in accordance with the information in this manual e access control to the system including password handling e analyzing all configuration settings and choosing the proper setting to achieve the required safety rating IMPORTANT When applying Functional Safety restrict access to qualified authorized personnel who are trained and experienced machine if the door locks while they are in the machine Additional safeguarding f ATTENTION When designing your system consider how personnel will exit the devices may be required for your specific appli
15. ertified to meet the requirements for SIL 2 according to EN IEC 61800 5 2 and IEC 61508 and PL d and Category 3 according to EN ISO 13849 1 The DriveGuard Safe Torque Off option is just one component in a safety control system Components in the system must be chosen and applied appropriately to achieve the desired level of safeguarding What Is the DriveGuard Safe Torque Off Option The DriveGuard Safe Torque Off option e Provides the Safe torque off STO function defined in EN IEC 61800 5 2 e Blocks gate firing signals from reaching the IGBT output power devices of the drive This prevents the IGBT s from switching in the sequence necessary to generate torque in the connected motor e Can be used in combination with other safety devices to fulfill the requirements of a system safe torque off function which satisfies Category 3 PL d according to EN ISO 13849 1 and SIL CL 2 according to EN IEC 62061 IEC 61508 and EN IEC 61800 5 2 IMPORTANT This option is suitable for performing only mechanical work on the drive system or affected area of a machine It does NOT disconnect or isolate the drive power output to the motor This option should not be used as a control for normal starting and or stopping the drive 2 Rockwell Automation Publication PFLEX UM003B EN P July 2012 General Description ATTENTION Electrical Shock Hazard Verify that all sources of AC and DC power are de energized and locked out or
16. for 20 year Proof Test Interval Attribute Test Result PFD 1 74E 05 PFH 2 0E 10 SFF 81 PowerFlex 70 PFD and PFH for 20 year Proof Test Interval Attribute Test Result PFD 3 4E 05 PFH 3 9E 10 SFF 81 Terminology Abbreviation Full Term Definition PFD Probability of The average probability of a system to fail to perform its Failure on Demand design function on demand PFH Probability of The probability of a system to have a dangerous failure occur Failure per Hour per hour SFF Safe Failure Fraction The sum of safe failures plus the sum of dangerous detected failures divided by the sum of all failures 8 Rockwell Automation Publication PFLEX UM003B EN P July 2012 General Description Functional Proof Tests The functional safety standards require that functional proof tests be performed on the equipment used in the system Proof tests are performed at user defined intervals and are dependent upon PFD and PFH values IMPORTANT Your specific application determines the time frame for the proof test interval Contact Information if Safety Option Failure Occurs If you experience a failure with any safety certified device contact your local Rockwell Automation distributor With this contact you can e return the device to Rockwell Automation so the failure is appropriately logged for the catalog number affected and a record is made of the failure e request a failure analysis if necessary to determine the
17. for user supplied power to 4 24V Common energize coil 33 3 mA typical 55 mA maximum Verify Operation Test the safety function for proper operation after the initial installation of the DriveGuard Safe Torque Off option Retest the safety function at the intervals determined by the safety analysis described on page 10 Verify that both safety channels are functioning according to the Table 4 or Table 5 16 Rockwell Automation Publication PFLEX UM003B EN P July 2012 Installation and Wiring PowerFlex 40P Channel Operation and Verification Safety Function Status Drive In Drive In Drive In Drive Able Safe State Stopped State Stopped State To Run Safety Channel Operation Safe Torque Off Option No Power Applied Power Applied No Power Applied Power Applied Terminals 3 amp 4 PowerFlex 40P No Power Applied No Power Applied Power Applied Power Applied Enable Input Description For Verification Safe Torque Off Option Closed Open Closed Open Monitor Contact Terminals 1 amp 2 PowerFlex 40P Value 0 Value 0 Value 1 Value 1 Control In Status Param 13 Bit 2 PowerFlex 40P Value 0 Value 0 Value 0 Value 1 Comms Status Word 8448 Bit 0 Safe Torque off Closed Open Open Open Output Relay N 0 Dig Output States 1 Must set A055 Relay Out Sel A058 or A061 Opto Outx Sel to option 25 Safe 0ff PowerFlex 70 Channel Operation and Verification Safety Function Status Drive I
18. n Drive In Drive In Drive Able Safe State Stopped State Stopped State To Run Safety Channel Operation Safe Torque Off Option No Power Applied Power Applied No Power Applied Power Applied Terminals 3 amp 4 PowerFlex 70 No Power Applied No Power Applied Power Applied Power Applied Enable Input Description For Verification Safe Torque Off Option Closed Open Closed Open Monitor Contact Terminals 1 amp 2 PowerFlex 70 Value 1 Value 1 Value 0 Value 0 Drive Inhibits Param 214 Bit 2 1 A Start Run command will cause an F111 Enable Hardware fault Rockwell Automation Publication PFLEX UM003B EN P July 2012 17 Description of Operation Description of Operation PowerFlex 40P Safe Torque Off Operation The DriveGuard Safe Torque Off option for PowerFlex 40P see Figure 8 disables the drive s output IGBT s by breaking the link with the drive microcontroller When used in combination with a second safety channel the Enable input the system satisfies the requirements of EN ISO 13849 1 Category 3 PL d for Safe Torque Off and helps protect against restart Under normal drive operation the Safe Torque Off relay is energized the enable input is energized and the drive is able to run If either inputs is de energized the gate control circuit is disabled To meet EN ISO 13849 1 Category 3 PL d operation both safety channels must be de energized Refer to the following examples for details
19. nts of EN 61800 3 Adjustable speed electrical power drive systems Part 3 EMC requirements and specific test methods Machinery Directive 2006 42 EC TUV Rheinland Notified Body Identification Number 0035 certifies the DriveGuard Safe Torque Off option compliant with the CE Machinery Directive as demonstrated by compliance with the requirements of EN ISO 13849 1 EN ISO 13849 2 EN IEC 61800 5 2 and EN IEC 62061 UL Certification The PF40P PF70 and DriveGuard Safe Torque Off option have been listed with UL as compliant with UL 508C Canadian Certification The PF40P PF70 and DriveGuard Safe Torque Off option have been listed CuL as compliant with C22 2 No 14 Australian C tick Certification Rockwell Automation declares the PF40P 240V 480V PF70 240V 400V 480V and DriveGuard Safe Torque Off option compliant with the Australian Radiocommunications Act of 1992 the Radiocommunications Electromagnetic Compatibility Standard of 2008 and the Radiocommunications Labelling Electromagnetic Compatibility Notice of 2008 as demonstrated by compliance with IEC 61800 3 Adjustable speed electrical power drive systems Part 3 EMC requirements and specific test methods 4 Rockwell Automation Publication PFLEX UM003B EN P July 2012 General Description Certified Equipment Drive Rating TUV Certified DriveGuard Safe Torque Off Function PowerFlex 40P 240V Vv Series B or greater 480V Vv Series B or greater Pow
20. r details IMPORTANT By itself the Safe Torque Off option initiates a coast to stop action Additional protective measures will need to be applied when an application requires a change to the stop action Figure 9 PowerFlex 70 Drive Safe Torque Off Circuitry ACLine Input Power PowerFlex 70 AC Drive 24V DC Stop Start Gate Control Power Supply Safe Off Option a Safety _ E ae Channel n ma Gate Control Circuit A Common Safety _ Enable Channel Rockwell Automation Publication PFLEX UM003B EN P July 2012 19 Description of Operation 20 Connection Examples Example 1 Safe Torque Off Connection with Coast to Stop Action Dual Channel Figure 10 Stop Category 0 Coast ACLine Input Power PowerFlex AC Drive 24V DC Stop Stop J Start 31 B13 sat HM d ke n Safe Off Option 4 32 14 24 i H 2 aw 24V DC Common 1 Common mportant The drive Enable digital Enable input is a solid state circuit The safety outputs on safety module must not be configured for Pulsed Safety Pulse Test Circuit Status Circuit shown with guard door closed and system ready for normal drive operation Operating Principle This is a dual chann
21. tagged out in accordance with the requirements of ANSI NFPA 70E Part Il ATTENTION To avoid an electric shock hazard verify that the voltage on the bus capacitors has discharged before performing any work on the drive Measure the DC bus voltage at the DC and DC terminals or test points refer to your drive s User Manual for locations The voltage must be zero ATTENTION In Safe Torque Off mode hazardous voltages may still be present at the motor To avoid an electric shock hazard disconnect power to the motor and verify that the voltage is zero before performing any work on the motor ATTENTION In the event of the failure of two output IGBT s in the drive when the DriveGuard Safe Torque Off option has controlled the drive outputs to the off state the drive may provide energy for up to 180 of rotation in a 2 pole motor before torque production in the motor ceases gt gt BPE Certifications and Compliance TUV Rheinland EC Type Examination Certification TUV Rheinland has certified the DriveGuard Safe Torque Off option when used in a PF70 or PF40P drive is compliant with the requirements for machines defined in Annex I of the EC Directive 2006 42 EC and that it complies with the requirements of the relevant standards listed below e ENISO 13849 1 2008 Safety of machinery Safety related parts of control systems Part 1 General principles for design DriveGuard Safe Torque Off option drive achieves Category 3 PL
22. y analysis of the machine section controlled by the drive is required to determine how often the safety function should be tested for proper operation during the life of the machine Rockwell Automation Inc cannot assume responsibility for the compliance or the noncompliance to any code national local or otherwise for the proper installation of this equipment A hazard of personal injury and or equipment damage exists if codes are ignored during installation f ATTENTION The following information is merely a guide for proper installation 10 Rockwell Automation Publication PFLEX UM003B EN P July 2012 Installation and Wiring EMC Considerations The DriveGuard Safe Torque Off option and PF40P and PF70 drives may be installed in an industrial electromagnetic environment which is consistent with the Second Environment described in IEC 61800 3 and where the EMC requirements documented in the PF40P and PF70 Installation manuals have been satisfied Important installation requirements include e All motor output control I O and signal wiring for the drive and DriveGuard Safe Torque Off option must be shielded cable e Grounding earthing must conform to the requirements described in the drive user manuals DriveGuard Safe Torque Off Option Installation PowerFlex 40P Drives 1 Remove all power to the drive capacitors has discharged before performing any work on the drive Measure the DC bus voltage at the DC and
Download Pdf Manuals
Related Search