ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules With 3 normally open safety outputs or 2 normally open safety outputs and 1 normally closed auxiliary output Original Instructions * Monitors emergency stop devices, such as palm buttons and rope/cable pulls, and positive-opening safety switches used for guard/gate interlocking * The safety inputs can monitor: * A +24V dc source switched by hard/relay contacts in single-channel hookup, or * Hard/relay contacts in a dual-channel hookup using terminals S11-S12 and S21-S22 * The ES-FA-9AA has three normally open output switching channels for connection to control-reliable power interrupt circuits * The ES-FA-11AA has two normally open output switching channels for connection to control-reliable power interrupt circuits and one normally closed auxiliary output channel * Automatic reset or monitored manual reset * Design complies with standards ANSI B11.19, UL991, ISO 13850 (EN418), and ISO 13849-1 (EN954-1) (Safety Category 4) * For use in functional stop category 0 applications per ANSI NFPA 79 and IEC/ EN60204-1 * 6 or 7 amp safety output contacts, depending on model * Plug-in terminal blocks * 24V ac/dc operation Models ES-FA-9AA ES-FA-11AA Supply Voltage 24V ac/dc Outputs Output Contact Rating 3 Normally Open (NO) 6A 2 Normally Open and 1 Normally Closed (NC) 7A WARNING: Not a Stand-Alone Safeguarding Device This Banner device is not a stand-alone point-of-operation guarding device, as defined by OSHA regulations. It is necessary to install point-of-operation guarding devices, such as safety light screens and/or hard guards, to protect personnel from hazardous machinery. Failure to install point-of-operation guards on hazardous machinery can result in a dangerous condition which could lead to serious injury or death. Important: Read this First The user is responsible for satisfying all local, state, and national laws, rules, codes, and regulations relating to the use of this product and its application. Banner Engineering Corp. has made every effort to provide complete application, installation, operation, and maintenance instructions. Please direct any questions regarding the use or installation of this product to the factory applications department at the telephone numbers or address found at http://www.bannerengineering.com. The user is responsible for making sure that all machine operators, maintenance personnel, electricians, and supervisors are thoroughly familiar with and understand all instructions regarding the installation, maintenance, and use of this product, and with the machinery it controls. The user and any personnel involved with the installation and use of this product must be thoroughly familiar with all applicable standards, some of which are listed within the specifications. Banner Engineering Corp. makes no claim regarding a specific recommendation of any organization, the accuracy or effectiveness of any information provided, or the appropriateness of the provided information for a specific application. Applicable U.S. Standards ANSI B11 Standards for Machine Tools Safety Contact: Safety Director, AMT - The Association for Manufacturing Technology, 7901 Westpark Drive, McLean, VA 22102, Tel.: 703-893-2900 ANSI NFPA 79 Electrical Standard for Industrial Machinery Contact: National Fire Protection Association, 1 Batterymarch Park, P.O. Box 9101, Quincy, MA 02269-9101, Tel.: 800-344-3555 P/N 060606 Rev. F 2/28/2013 0 060606 6 ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules ANSI/RIA R15.06 Safety Requirements for Industrial Robots and Robot Systems Contact: Robotic Industries Association, 900 Victors Way, P.O. Box 3724, Ann Arbor, MI 48106, Tel.: 734-994-6088 Applicable International Standards ISO 12100-1 & -2 (EN 292-1 & -2) Safety of Machinery - Basic Concepts, General Principles for Design ISO 13849-1 (EN 954-1) Safety-Related Parts of Control Systems ISO 13850 (EN 418) Emergency Stop Devices, Functional Aspects - Principles for Design IEC 60204-1 Electrical Equipment of Machines Part 1: General Requirements Contact: Global Engineering Documents, 15 Inverness Way East, Englewood, CO 80112-5704, Tel.: 800-854- 7179 Certificate of Adequacy This Safety Module datasheet satisfies the requirements of Machinery Directive 2006/42/EC, Section 1.7.4 -- instructions. Overview An Emergency Stop Safety Module is used to increase the control reliability of an emergency stop circuit. As shown in the hookup drawings, the models ES-FA-9AA and ESFA-11AA E-Stop Safety Modules are designed to monitor a 1-channel or 2-channel Estop switch. A 2-channel E-stop switch has two electrically isolated contacts. WARNING: Safety Categories The level of safety circuit integrity can be greatly affected by the design and installation of the safety devices and the means of interfacing of those devices. A risk assessment must be performed to determine the appropriate safety circuit integrity level or safety category as described by ISO 13849-1 (EN 954-1) to ensure the expected risk reduction is achieved and all relevant regulations and standards are complied with. ES-FA-9AA ES-FA-11AA Power ON LED Channel 1 Active LED Channel 2 Active LED Figure 1. Features and Terminals Safety Circuit Integrity and ISO 13849-1 (EN954-1) Safety Circuit Principles Safety circuits involve the safety-related functions of a machine that minimize the level of risk of harm. These safety-related functions can prevent initiation, or stop or remove a hazard. A failure of a safety-related function or its associated safety circuit may result in an increased risk of harm. The integrity of a safety circuit depends on several factors, including fault tolerance, risk reduction, reliable and well-tried components, well-tried safety principles, and other design considerations. Depending on the level of risk associated with the machine or its operation, an appropriate level of safety circuit performance must be incorporated. ANSI/RIA R15.06 Industrial Robots, ANSI B11 Machine Tools, OSHA 29CFR1910.217 Mechanical Power Presses, and ISO 13849-1 (EN954-1) Safety-Related Parts of a Control System standards provide details of the safety performance levels. Safety Circuit Integrity Levels Safety circuits in International and European standards have been segmented into categories, depending on their ability to maintain their integrity in the event of a failure. The most recognized standard that details safety circuit integrity levels is ISO 13849-1 (EN954-1), which establishes five levels: Categories B, 1, 2, 3, and the most stringent, Category 4. In the United States, the typical level of safety circuit integrity has been called "control reliability." Control reliability typically incorporates redundant control and self-checking circuitry and has been loosely equated to ISO 13849-1 Categories 3 and 4 (see CSA Z432 and ANSI B11.TR4). If the requirements described by ISO 13849-1 (EN954-1) are to be implemented, a risk assessment must first be performed to determine the appropriate category, in order to ensure that the expected risk reduction is achieved. This risk assessment must also take into account national regulations, such as U.S. control reliability or European "C" level standards, to ensure that the minimum level of performance that has been mandated is complied with. 2 www.bannerengineering.com - tel: 763-544-3164 P/N 060606 Rev. F ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules Fault Exclusion An important concept within the category requirements of ISO 13849-1 is the probability of the occurrence of the failure, which can be decreased using the "fault exclusion" method. This method assumes that the possibility of certain well-defined failure(s) can be reduced to a point where the resulting fault(s) can be disregarded. Fault exclusion is a tool a designer can use during the development of the safety-related part of the control system and the risk assessment process. It allows the designer to eliminate the possibility of various failures and justify it through the risk assessment process to meet the requirements of Categories 2, 3 or 4. See ISO 13849-1/-2 for further information. Monitoring of Safety Devices Requirements vary widely for the level of control reliability or safety category per ISO 13849-1 (EN954-1) in safety applications. While Banner Engineering always recommends the highest level of safety in any application, it is the responsibility of the user to safely install, operate and maintain each safety system and comply with all relevant laws and regulations. Although only two applications are listed, the Module can monitor a variety of devices as long as the input requirements are complied with (see Electrical Installation and Specifications). The Safety Module does not have 500 ms simultaneity between inputs and thus cannot be used for monitoring a two-hand control. In all cases, the safety performance (integrity) must reduce the risk from identified hazards as determined by the machine's risk assessment . WARNING: Emergency Stop Functions Do not mute or bypass any Emergency Stop device. ANSI B11.19, ANSI NFPA79 and IEC/EN 60204-1 require that the Emergency Stop function remain active at all times. Emergency Stop Push Buttons and Rope/Cable Pull Switches The safety inputs can be interfaced with positive-opening switches to monitor an emergency-stop (E-stop) push button or rope/cable pull. The switch must provide one or two contacts for safety which are closed when the switch is armed. Once activated, the E-stop switch must open all its safety-rated contacts, and must require a deliberate action (such as twisting, pulling, or unlocking) to return to the closed-contact, armed position. The switch must be a "positive-opening" (or direct-opening) type, as described by IEC 60947-5-1. Standards ANSI NFPA 79, IEC/EN 60204-1, and ISO 13850 specify additional emergency stop switch device requirements, including the following: * Emergency-stop push buttons shall be located at each operator control station and at other operating stations where emergency shutdown is required. * Stop and emergency-stop push buttons shall be continuously operable and readily accessible from all control and operating stations where located. Do not mute or bypass E-stop buttons or rope/cable pulls. * Actuators of emergency-stop devices shall be colored red. The background immediately around the device actuator shall be colored yellow (where possible). The actuator of a push-button-operated device shall be of the palm or mushroom-head type. * The emergency-stop actuator shall be a self-latching type. For Rope/Cable Pull Installations Only: * The wire rope should be easily accessible and visible along its entire length. Markers or flags may be fixed on the rope to increase its visibility. * Mounting points, including support points, must be rigid. * The rope should be free of friction at all supports. Pulleys are recommended. Some applications may have additional requirements; comply with all relevant regulations. See the device manufacturer installation instructions for complete information (such as ES-..A-5A p/n 122365, SSA-EB..-.. p/n 111880, or RP-RM83F.. p/n 141245 data sheets). WARNING: Emergency Stop Functions Do not mute or bypass any Emergency Stop device. ANSI B11.19, ANSI NFPA79 and IEC/EN 60204-1 require that the Emergency Stop function remain active at all times. Interlocked Guards (Gates) The safety inputs can be interfaced with positive-opening safety switches to monitor the position of an interlock guard or gate. Each switch must provide electrically isolated contacts: at minimum, one normally closed (N.C.) contact from each individually mounted switch. P/N 060606 Rev. F www.bannerengineering.com - tel: 763-544-3164 3 ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules The contacts must be of "positive-opening" (direct-opening) design, as described by IEC 60947- 5-1, with one or more normally closed contacts rated for safety. In addition, the switches must be mounted in a "positive mode," to move/disengage the actuator from its home position and open the normally closed contact when the guard opens. In higher levels of safety performance, the design of a dual-channel coded magnetic switch typically uses complementary switching, in which one channel is open and one channel is closed at all times. The inputs of the Safety Module do not support complementary switching, and thus should not be used with coded magnetic safety switches. The design and installation of the interlocked guard and the safety switches should comply with ANSI B11.19, ISO14119, and other applicable standards. See the device manufacturer installation instructions for complete information (such as GM-FA-10J p/n 60998, SILS83/-LS100 p/n 59622, or SI-HG63 p/n 129465 datasheets). Mechanical Installation The Safety Module must be installed inside an enclosure. It is not designed for exposed wiring. It is the user's responsibility to house the Safety Module in an enclosure with NEMA 3 (IEC IP54) rating, or better. The Safety Module mounts directly to standard 35 mm DIN rail. Heat Dissipation Considerations. For reliable operation, ensure that the operating specifications are not exceeded. The enclosure must provide adequate heat dissipation, so that the air closely surrounding the Module does not exceed the maximum operating temperature stated in the Specifications. Methods to reduce heat build-up include venting, forced airflow (e.g., exhaust fans), adequate enclosure exterior surface area, and spacing between modules and other sources of heat. Electrical Installation WARNING: Shock Hazard and Hazardous Energy Always disconnect power from the safety system (for example, device, module, interfacing, etc.) and the machine being controlled before making any connections or replacing any component. Electrical installation and wiring must be made by Qualified Personnel and must comply with the relevant electrical standards and wiring codes, such as the NEC (National Electrical Code), ANSI NFPA79, or IEC 60204-1, and all applicable local standards and codes. Lockout/tagout procedures may be required. Refer to OSHA 29CFR1910.147, ANSI Z244-1, ISO 14118, or the appropriate standard for controlling hazardous energy. It is not possible to give exact wiring instructions for a Safety Module that interfaces to a multitude of machine control configurations. The following guidelines are general in nature. The Safety Module has no delay function. Its output relay contacts open within 25 milliseconds after a safety input opens. This classifies the Safety Module as a functional stop "Category 0" control, as defined by ANSI NFPA 79 and IEC/EN 60204-1. The safety inputs can be connected to: * A +24V dc source that is switched by a hard/relay contact in single-channel hookup configuration, or * Hard/relay contacts in a dual-channel hookup configuration using terminals S11-S12 and S21-S22. Safety Input Device Hookup Options The operation of all dual-channel hookup options is concurrent, meaning that input channel 1 and input channel 2 must be in the same state in both the STOP and RUN condition, but with no simultaneity (i.e. timing) requirement between the channels. The dual-channel hookup configuration is able to detect certain failures and faults, such as short circuits, that could result in a loss of the safety function. Once such a failure or fault is detected, the Safety Module will turn OFF (open) its safety outputs until the problem is fixed. This circuit can meet ISO 13849-1 Category 2, 3, or 4 requirements, depending on the safety rating and the installation of the safety input device. This circuit can detect a short circuit between channels or to another source of power, at a minimum, when the device is actuated. A single device with redundant outputs that can fail in such a manner to lose the safety function, such as a single safety interlocking switch, can typically meet only a Category 2. See below for means to eliminate or minimize the possibility of failures and faults that could result in the loss of the safety function(s). The single-channel hookup configuration cannot detect short circuits to secondary sources of +24V dc or detect the loss of the switching function of the safety input device (i.e., it is not redundant) and thus this circuit typically can meet only ISO 13849-1 Category 2. 4 www.bannerengineering.com - tel: 763-544-3164 P/N 060606 Rev. F ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules It is recommended that in all circumstances the installation of the Safety Module and its associated safety input devices are installed to eliminate or minimize the possibility of failures and faults that could result in the loss of the safety function(s). Methods to eliminate or minimize the possibility of these failures include, but are not limited to: * Physically separating interconnecting control wires from each other and from secondary sources of power. * Routing interconnecting control wires in separate conduit, runs, or channels. * Locating all elements (modules, switches, and devices under control) within one control panel, adjacent to each other, and directly connected with short wires. * Properly installing multi-conductor cabling and multiple wires through strain-relief fittings. (Over-tightening of a strain-relief can cause short circuits at that point.) * Using positive-opening components as described by IEC 60947-5-1 that are installed and mounted in a positive mode. * Periodically checking the functional integrity / safety function and training operators, maintenance personnel, and others associated with the operation of the machine to recognize and immediately correct such failures. If you have any questions about your intended use, please contact a Banner applications engineer. Connection of Multiple Switches Connect the poles of multiple switches, such as e-stop switches, as shown in the figure at right. The switches are shown in the "armed" position with both contacts closed. Multiple switches connected to one Safety Module must be series connected (see figure at right and the warning, Multiple Switching Devices). E-Stop S11 S21 E-Stop S22 S12 Figure 2. Series Connection of Multiple E-stop Switches WARNING: Multiple Switching Devices Whenever two or more devices are connected to the same safety module (controller): * Contacts of the corresponding pole of each switch must be connected together in series. Never connect the contacts of multiple switches in parallel. Such a parallel connection defeats the switch contact monitoring ability of the Module and creates an unsafe condition which could result in serious injury or death. * Each device must be individually actuated (engaged), then released (or re-armed) and the safety module reset. This allows the module to check each switch and its wiring to detect faults. This check must be performed during the prescribed checkouts. Failure to test each device individually in this manner could result in undetected faults and create an unsafe condition which could result in serious injury or death. P/N 060606 Rev. F www.bannerengineering.com - tel: 763-544-3164 5 ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules Connection of Safety Switches The Safety Module may be used to monitor safety interlocking switches that determine the position of a guard or gate. To achieve Category 4 operation per ISO 13849-1 (EN 954-1), two positive-opening safety switches must operate concurrently when the guard or gate is opened. The Safety Module verifies concurrent opening of two contacts - one from each safety switch. Reset of the Safety Module is not possible if one switch fails to open or if a short circuit between the safety interlocking switches occurs. Safety Gate or Guard with end-of-travel stops and two individually mounted Safety Interlocking Switches OPEN S11 S21 S22 S12 Figure 3. Wiring using contacts from two safety switches Connection of Reset Switch The reset circuit switch can be any mechanical switch, such as a normally open momentary switch, or a two-position key switch. The reset switch must be capable of reliably switching 8 to 12V dc at 10 to 15 milliamps. As shown in the hookup drawings, the reset switch connects between Safety Module terminals S33 and S11. The reset switch must be located outside of - and not be accessible from - the area of dangerous motion, and must be positioned so that any area of dangerous motion may be observed by the switch operator during the reset procedure. See warning below. WARNING: Reset Switch Location All reset switches must be accessible only from outside, and in full view of, the hazardous area. Reset switches must also be out of reach from within the safeguarded space, and must be protected against unauthorized or inadvertent operation (for example, through the use of rings or guards). If any areas are not visible from the reset switch(es), additional means of safeguarding must be provided. Failure to do so could result in serious bodily injury or death. Automatic Reset Mode The Safety Module may be configured (via hookup) for automatic reset. If no MSC contacts are monitored, install a jumper between terminals S33 and S34. The Safety Module will reset (and its outputs energize) as soon as the switch returns to its armed (closed-contact) position. Automatic reset is useful for some automated processes. However, if automatic reset is used, it is necessary to provide a means of preventing resumption of hazardous machine motion, until an alternate reset procedure is performed. The alternate procedure must include a reset/restart switch, located outside the area of dangerous motion, which is positioned so that any area of dangerous motion may be observed by the switch operator during the reset procedure. See Warning below. 6 www.bannerengineering.com - tel: 763-544-3164 P/N 060606 Rev. F ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules WARNING: Reset Routine Required U.S. and international standards require that a reset routine be performed after clearing the cause of a stop condition (for example, arming an E-stop button, closing an interlocked guard, etc.). Allowing the machine to restart without actuating the normal start command/device can create an unsafe condition which could result in serious injury or death. NOTE: The minimum time required for the Module to be in a STOP or OFF condition is 250 ms. This "recovery time" (OFF-state) is required for the internal circuitry of the Safety Module to normalize, allowing a reliable reset to occur. A lockout occurs if the Module is cycled too quickly. To clear the lockout, the Module must be recycled, meeting the minimum OFF time requirements. Wiring Auto Reset Manual Reset +V +V dc common dc common 24V ac/dc 24V ac/dc A2 A1 A2 A1 Reset E-Stop Switch MSC1 MSC3 S11 S33 ES-FA-9AA S21 S34 MSC2 MSC1 MSC2 MSC3 MSC Monitor Contacts or Jumper S33 ES-FA-9AA S11 E-Stop Switch See WARNING Below S12 (No Connection) S34 S22 S21 S22 S12 Figure 4. Dual-Channel E-Stop Applications Auto Reset Manual Reset +V +V dc common dc common 24V ac/dc 24V ac/dc E-Stop Switch E-Stop Switch A2 A1 A2 A1 Reset MSC1 MSC3 S11 S33 ES-FA-9AA S21 S34 MSC2 MSC1 MSC2 MSC3 MSC Monitor Contacts or Jumper S33 ES-FA-9AA S11 S34 S22 S12 (No Connection) S21 See Interfacing MSCs Warning S22 S12 Figure 5. Single-Channel E-Stop Applications Connection to the Machine to be Controlled The machine hookup diagram shows a generic connection of the Safety Module's redundant output circuits to the master stop control elements (MSCs). An MSC is defined as an electrically powered device, external to the Safety Module, which stops the machinery being P/N 060606 Rev. F www.bannerengineering.com - tel: 763-544-3164 7 ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules controlled by immediately removing electrical power to the machine and (when necessary) by applying braking to dangerous motion. This stopping action is accomplished by removing power to the actuator of either MSC. External Device Monitoring To satisfy the requirements of Control Reliability (OSHA and ANSI), Category 3 and 4 of ISO 13849-1 (EN 954-1), the master stop control elements (MSCs) must each offer a normally closed, forced-guided (mechanically linked) monitor contact. Connect one normally closed monitor contact from each master stop control element as shown in the single-channel wiring diagrams. In operation, if one of the switching contacts of either MSC fails in the energized condition, the associated monitor contact will remain open. Therefore, it will not be possible to reset the Safety Module. If no MSC-monitor contacts are monitored, a jumper must be installed as shown in the wiring diagrams. It is the user's responsibility to ensure that any single failure will not result in a hazardous condition and will prevent a successive machine cycle. Overvoltage Category II and III Installations (EN 50178 and IEC 60664-1) The Safety Module is rated for Overvoltage Category III when voltages of 1V to 150V ac/dc are applied to the output relay contacts. It is rated for Overvoltage Category II when voltages of 151V to 250V ac/dc are applied to the output relay contacts and no additional precautions are taken to attenuate possible overvoltage situations in the supply voltage. The Module can be used in an Overvoltage Category III environment (with voltages of 151V to 250V ac/dc) if care is taken either to reduce the level of electrical disturbances seen by the Module to Overvoltage Category II levels by installing surge suppressor devices (e.g., arc suppressors), or to install extra external insulation in order to isolate both the Safety Module and the user from the higher voltage levels of a Category III environment. For Overvoltage Category III installations with applied voltages from 151V to 250V ac/dc applied to the output contact(s): the Safety Module may be used under the conditions of a higher overvoltage category where appropriate overvoltage reduction is provided. Appropriate methods include: * An overvoltage protective device * A transformer with isolated windings * A distribution system with multiple branch circuits (capable of diverting energy of surges) * A capacitance capable of absorbing energy of surges * A resistance or similar damping device capable of dissipating the energy of surges When switching inductive ac loads, it is good practice to protect the Safety Module outputs by installing appropriately-sized arc suppressors. However, if arc suppressors are used, they must be installed across the load being switched (e. g., across the coils of external safety relays), and never across the Safety Module's output contacts (see WARNING, Arc Suppressors). Auxiliary Monitor Contact (Model ES-FA-11AA Only) The action of the auxiliary monitor contact, terminals 31-32, inversely "follows" the action of the safety outputs. The 31-32 auxiliary monitor contact is to be used only for control functions that are NOT safety-related. A typical use is to communicate the status of the Safety Module output to a programmable logic controller (PLC). WARNING: Interfacing MSCs NEVER wire an intermediate device(s) (for example, PLC, PES, PC) between the Safety Module outputs and the Master Stop Control Element it switches in such a manner that in the event of a failure there is a loss of the safety stop command, OR in such a manner that the safety function can be suspended, overridden, or defeated, unless accomplished with the same or greater degree of safety. Whenever forced-guided, mechanically linked relays are added as intermediate switching devices, a normally closed (N.C.) forced-guided monitor contact from each relay must be added to the series feedback loop between Safety Module terminals S31 and S32. WARNING: Wiring of Arc Suppressors If arc suppressors are used, they MUST be installed as shown across the actuator coil of the stop control elements (MSCs or MPCEs). NEVER install suppressors directly across the output contacts of the Safety Device or Module. It is possible for suppressors to fail as a short circuit. If installed directly across the output contacts, a short-circuited suppressor will create an unsafe condition which could result in serious injury or death. 8 www.bannerengineering.com - tel: 763-544-3164 P/N 060606 Rev. F ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules ES-FA-11AA ES-FA-9AA Machine Master Stop Control Elements L2 K2 A 13 6A max. K1 B K2 B 23 24 6A max. K1 C 33 MSC1 13 14 MSC1 24 MSC2 7A max. Machine Control Circuits MSC2 L2 K2 A K1 B K2 B 23 * Machine Control Circuits K1 A * 14 7A max. L1 * K1 A * 6A max. L1 Machine Master Stop Control Elements 7A max. K2 C 34 MSC3 31 K1 C 32 * K2 C *Arc suppressors (see WARNING) *Arc suppressors (see WARNING) Feedback (optional) Figure 6. Machine Control Circuit Connections Initial Checkout Procedures CAUTION: Disconnect Power Prior to Checkout Before performing the initial checkout procedure, make certain all power is disconnected from the machine to be controlled. Dangerous voltages may be present along the Safety Module wiring barriers whenever power to the machine control elements is ON. Exercise extreme caution whenever machine control power is or may be present. Always disconnect power to the machine control elements before opening the enclosure housing of the Safety Module. 1. Remove power from the machine control elements. 2. Ensure the safety device is in a STOP or "open-contact" state (e.g., actuate the E-stop switch to open its contacts). 3. Apply power to the Safety Module at terminals A1 and A2 (see wiring diagrams). Verify that only the Input Power indicator (see Figure 1. Features and Terminals on page 2) is ON. If either input channel 1 (K1) or input channel 2 (K2) indicators are ON at this point, disconnect the input power and check all wiring. Return to step 2 after the cause of the problem has been corrected. 4. Reset or otherwise cause the safety device to reach an ON or "closed-contact" state (e.g., arm the E-stop switch to close its contacts). Automatic reset: Ch1 (K1) and Ch2 (K2) indicators should come ON, and the safety output contacts should close. Manual reset: From an open condition, close the reset switch for approximately 1/4 second, and then re-open. The Ch1 (K1) and Ch2 (K2) indicators should both come ON steady at this time. If either indicator comes ON before the reset switch is opened, disconnect the input power and check all wiring. Return to step 2 after correcting the problem. 5. Cause the safety device to generate a STOP or "open-contact" state (e.g., actuate the E-stop switch to open its contacts). The Ch1 (K1) and Ch2 (K2) indicators should turn OFF simultaneously. If either indicator remains ON, disconnect the input power and check all wiring. Return to step 2 after the cause of the problem has been corrected. 6. If more than one safety device is series-connected to the Safety Module, run the above checkout procedure individually for EACH device. 7. Close and secure the enclosure in which the Safety Module is mounted. Apply power to the machine control elements and perform the Periodic Checkout Procedure. P/N 060606 Rev. F www.bannerengineering.com - tel: 763-544-3164 9 ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules WARNING: Multiple Safety Devices When two or more safety devices are used, each device must be individually actuated, causing a STOP or open-contact condition, then reset/rearmed and the Safety Module reset (if using manual reset mode). This allows the monitoring circuits to check each device and its wiring to detect faults. Failure to test each device individually in this manner could result in undetected faults and create an unsafe condition which could result in serious injury or death. Periodic Checkout Procedure The functioning of the Safety Module and the device(s) connected to it must be verified on a regular periodic basis to ensure proper operation (see also the machine manufacturer's recommendations). 1. With the machine running, cause the safety device to generate a STOP or "open-contact" state (e.g., actuate the E-stop switch to open its contacts). Verify that the machine stops. 2. Reset or otherwise cause the safety device to reach an ON or "closed-contact" state. Verify that the machine does not restart. 3. If using manual reset mode, close and then open the reset switch within 3 seconds. Verify that the machine can be restarted by normal initiation. 4. If more than one safety device is series-connected to the Safety Module, run the above checkout procedure individually for EACH device. Repairs Do not attempt any repairs to the Module. It contains no field-replaceable components. Return it to the factory for warranty repair or replacement by contacting Banner Factory Application Engineering. They will attempt to troubleshoot the system from your description of the problem. If they conclude a component is defective, they will issue a return merchandise authorization (RMA) number for your paperwork and give you the proper shipping address. Pack the Module carefully. Damage that occurs in return shipping is not covered by warranty. CAUTION: Abuse of Module After Failure If an internal fault has occurred and the Module will not reset, do not tap, strike, or otherwise attempt to correct the fault by a physical impact to the housing. An internal relay may have failed in such a manner that its replacement is required. If the Module is not immediately replaced or repaired, multiple simultaneous failures may accumulate such that the safety function can not be guaranteed. Specifications Power General Supply Voltage and Current 24V dc 10% (SELV-rated supply according to EN IEC 60950, NEC Class 2) 24V ac 10% , 50/60Hz (NEC Class 2-rated transformer) Power consumption: approx. 2W/2VA Overvoltage Category Output relay contact voltage of 1V to 150V ac/dc: category III Output relay contact voltage of 151V to 250V ac/dc: category III, if appropriate overvoltage reduction is provided, as described in Overvoltage Category II and III Installations (EN 50178 and IEC 60664-1) on page 8. Pollution Degree 10 Indicators 3 green LED indicators: Power ON , K1 energized, K2 energized Construction Polycarbonate housing. Rated NEMA 1, IEC IP40; Terminals IP20 Mounting Mounts to standard 35 mm DIN rail track. Safety Module must be installed inside an enclosure rated NEMA 3 (IEC IP54), or better. Vibration Resistance 10 to 55Hz @ 0.35 mm displacement per IEC 60068-2-6 www.bannerengineering.com - tel: 763-544-3164 P/N 060606 Rev. F ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules Power General 2 Supply Protection Circuitry Protected against transient voltages and reverse polarity Operating Conditions Temperature: 0 to +50C (+32 to 122F) Max. Relative Humidity: 90% @ +50C (non-condensing) Output Configuration Output Configuration ES-FA-9AA: 3 normally open (N.O.) output channels ES-FA-11AA: 2 normally open (N.O.) output channels and 1 normally closed (N.C.) auxiliary output Contacts AgNi, 5 m gold-plated Low Current Rating: The 5 m gold-plated contacts allow the switching of low current/low voltage. In these low-power applications, multiple contacts can also be switched in series (e.g., "dry switching"). To preserve the gold plating on the contacts, do not exceed the following max. values at any time: Each normally open output channel is a series connection of contacts from two forced-guided (mechanically linked) relays, K1-K2. The normally closed Aux. output channel of the ES-FA-11AA is a parallel connection of contacts from two forced-guided relays, K1K2. High Current Rating: If higher loads must be switched through one or more of the contacts, the minimum and maximum values of the contact(s) changes to: Minimum Maximum Minimum Maximum Voltage 15V ac/dc 250V ac/dc Voltage 1V ac/dc 60V Current 30 mA ac/dc ES-FA-9AA: 6A ES-FA-11AA: 7A Current 5 mA ac/dc 300 mA Power 0.45 W (0.45 VA) Power 5 mW (5 mVA) 7 W (7 VA) ES-FA-9AA: 200 W (1,500 VA) ES-FA-11AA: 200 W (1,750 VA) Mechanical life > 20,000,000 operations Electrical life (switching cycles of the output contacts, resistive load) 150,000 cycles @ 1,500 VA; 1,000,000 cycles @ 450 VA; 2,000,000 cycles @ 250 VA; 5,000,000 cycles @ 125 VA NOTE: Transient suppression is recommended when switching inductive loads. Install suppressors across load. Never install suppressors across output contacts (see Wiring of Arc Suppressors warning in Auxiliary Monitor Contact (Model ES-FA-11AA Only) on page 8). Input Requirements Safety input switch: Dual-Channel (contacts) hookup - 10 to 20 mA steady state @ 12V dc. NOTE: Inputs are designed with a brief contact-cleaning current of 100 mA when initially closed. Safety input switch: Single-Channel hookup - 40 to 100 mA @ 24V ac/dc +/- 10%; 50/60 Hz Reset switch: 20 mA @ 12V dc, hard contact only Minimum OFF-State Recovery Time 250 ms P/N 060606 Rev. F Output Response Time 25 milliseconds typical Design Standards Cat. 4 PL e per EN ISO 13849-1; SIL 3 per IEC 61508 and IEC 62061 Certifications www.bannerengineering.com - tel: 763-544-3164 11 ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules Dimensions 22.5 mm (0.89") 118.0 mm (4.65") S33 13 23 Power S11 33 ES-FA-9AA CH. 1 CH. 14 S22 2 24 34 S34 K1 84.0 mm (3.31") K2 A2 S12 S21 A1 S33 13 Power 23 S11 33 ES-FA-9AA Emergency Stop Devices 29YL Ch. 1 K1 Ch. 2 14 S22 WARRANTY VOID IF OPENED S21 A1 Machine Safety K2 24 34 S34 A2 S12 Figure 7. Product Label -- Model ES-FA-9AA Shown EC Declaration of Conformity Banner Engineering Corp. 9714 Tenth Avenue North Minneapolis, MN 55441-5019 USA We herewith declare that ES-FA-9AA and ES-FA-11AA Emergency Stop Modules for industrial control are in conformity with the provisions of the Machinery Directive (Directive 98/37/EEC), and all essential Health and Safety Requirements have been met. Date: 17 Aug 2009 Date: 17 Aug 2009 R. Eagle / Engineering Manager Banner Engineering Corp. 9714 Tenth Avenue North Minneapolis, MN 55441-5019 USA P. Mertens / Managing Director Banner Engineering Europe Park Lane, Culliganlaan 2F 1831 Diegem, Belgium Download the complete EC Declaration of Conformity as a PDF file at www.bannerengineering.com/ESmodule Banner Engineering Corp Limited Warranty Banner Engineering Corp. warrants its products to be free from defects in material and workmanship for one year following the date of shipment. Banner Engineering Corp. will repair or replace, free of charge, any product of its manufacture which, at the time it is returned 12 www.bannerengineering.com - tel: 763-544-3164 P/N 060606 Rev. F ES-FA-9AA and ES-FA-11AA E-Stop Safety Modules to the factory, is found to have been defective during the warranty period. This warranty does not cover damage or liability for misuse, abuse, or the improper application or installation of the Banner product. THIS LIMITED WARRANTY IS EXCLUSIVE AND IN LIEU OF ALL OTHER WARRANTIES WHETHER EXPRESS OR IMPLIED (INCLUDING, WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE), AND WHETHER ARISING UNDER COURSE OF PERFORMANCE, COURSE OF DEALING OR TRADE USAGE. This Warranty is exclusive and limited to repair or, at the discretion of Banner Engineering Corp., replacement. IN NO EVENT SHALL BANNER ENGINEERING CORP. BE LIABLE TO BUYER OR ANY OTHER PERSON OR ENTITY FOR ANY EXTRA COSTS, EXPENSES, LOSSES, LOSS OF PROFITS, OR ANY INCIDENTAL, CONSEQUENTIAL OR SPECIAL DAMAGES RESULTING FROM ANY PRODUCT DEFECT OR FROM THE USE OR INABILITY TO USE THE PRODUCT, WHETHER ARISING IN CONTRACT OR WARRANTY, STATUTE, TORT, STRICT LIABILITY, NEGLIGENCE, OR OTHERWISE. Banner Engineering Corp. reserves the right to change, modify or improve the design of the product without assuming any obligations or liabilities relating to any product previously manufactured by Banner Engineering Corp. www.bannerengineering.com - tel: 763-544-3164