- Industrial & lab equipment
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- Honeywell
- HercuLine 10260S
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- 112 Pages
Honeywell HercuLine 10260S, 10261S, 10262S, 10263S, 10264S, 10265S, 10266S, 10267S, 10268S, 10269S Smart Actuator Installation, Operation and Maintenance Manual
Below you will find brief information for HercuLine 10260S, HercuLine 10261S, HercuLine 10262S, HercuLine 10263S, HercuLine 10264S. The Honeywell HercuLine 10260S Series actuators are precision engineered for exceptional reliability, accurate positioning, and low maintenance. These actuators are designed for precise positioning of dampers and quarter turn valves in the power and processing industries. The 10260S performs especially well in demanding environments requiring high reliability and low maintenance.
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10260S HercuLine® Smart Actuator Installation, Operation and Maintenance Manual Doc. No.: Sensing and Control 62-86-25-08 Release: 0 Last Revision Date: 4/01 Notices and Trademarks Copyright 2001 by Honeywell Release 0 April 12, 2001 Warranty/Remedy Honeywell warrants goods of its manufacture as being free of defective materials and faulty workmanship. Contact your local sales office for warranty information. If warranted goods are returned to Honeywell during the period of coverage, Honeywell will repair or replace without charge those items it finds defective. The foregoing is Buyer’s sole remedy and is in lieu of all other warranties, expressed or implied, including those of merchantability and fitness for a particular purpose. Specifications may change without notice. The information we supply is believed to be accurate and reliable as of this printing. However, we assume no responsibility for its use. While we provide application assistance personally, through our literature and the Honeywell web site, it is up to the customer to determine the suitability of the product in the application. CE Conformity This product conforms with the protection requirements of the following European Council Directive: 89/336/EEC, the EMC directive and 73/23/EEC, the Low Voltage Directive. Conformance of this product with any other “CE Mark” Directive(s) shall not be assumed. Attention The emission limits of EN 50081-2 are designed to provide reasonable protection against harmful interference when this equipment is operated in an industrial environment. Operation of this equipment in a residential area may cause harmful interference. This equipment generates, uses, and can radiate radio frequency energy and may cause interference to radio and television reception when the equipment is used closer than 30 m to the antenna(e). In special cases, when highly susceptible apparatus is used in close proximity, the user may have to employ additional mitigating measures to further reduce the electromagnetic emissions of this equipment Sensing and Control Honeywell 11 West Spring Street Freeport, Illinois 61032 LeaderLine and Herculine are U.S. registered trademarks of Honeywell Other brand or product names are trademarks of their respective owners. ii 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 About This Document Abstract This manual describes the installation, set up, operation, maintenance, and troubleshooting of the 10260S series of Smart Actuators. References The following list identifies all documents that may be sources of reference for material discussed in this publication. Document Title Doc ID Herculine 10260 S Smart Actuator Specification and Model Selection Guide 62-86-03-12 Modbus RTU Serial Communications User Manual 51-52-25-66 Modbus RTU Serial Communications User Manual Communication Interface for 10260S Actuator 51-52-25-103 Contacts World Wide Web The following lists Honeywell’s World Wide Web sites that will be of interest to our customers. Honeywell Organization WWW Address (URL) Corporate http://www.honeywell.com Sensing and Control http://www.honeywell.com/sensing International http://www.honeywell.com/Business/global.asp Telephone Contact us by telephone at the numbers listed below. Organization United States and Canada Honeywell Phone Number 1-800-423-9883 1-888-423-9883 1-800-525-7439 Asia Pacific Honeywell Asia Pacific Hong Kong (852) 2829-8298 Europe Honeywell PACE, Brussels, Belgium [32-2] 728-2111 Latin America Honeywell, Sunrise, Florida U.S.A. (954) 845-2600 Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Tech. Support Q&A Faxback (TACFAQS) Service iii 10260S Series Actuators Symbol Definitions The following table lists those symbols used in this document to denote certain conditions. Symbol Definition This CAUTION symbol on the equipment refers you to the Product Manual for additional information. This symbol appears next to required information in the manual. WARNING PERSONAL INJURY: Risk of electrical shock. This symbol warns you of a potential shock hazard where HAZARDOUS LIVE voltages greater than 30 Vrms, 42.4 Vpeak, or 60 Vdc may be accessible. Failure to comply with these instructions could result in death or serious injury. ATTENTION, Electrostatic Discharge (ESD) hazards. Observe precautions for handling electrostatic sensitive devices Protective Earth (PE) terminal. Provided for connection of the protective earth (green or green/yellow) supply system conductor. Functional earth terminal. Used for non-safety purposes such as noise immunity improvement. NOTE: This connection shall be bonded to protective earth at the source of supply in accordance with national local electrical code requirements. Earth Ground. Functional earth connection. NOTE: This connection shall be bonded to Protective earth at the source of supply in accordance with national and local electrical code requirements. Chassis Ground. Identifies a connection to the chassis or frame of the equipment shall be bonded to Protective Earth at the source of supply in accordance with national and local electrical code requirements. iv 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 Contents Contents 1. Introduction ....................................................................................................... 1 Product Description ........................................................................................................................ 1 Applications .................................................................................................................................... 1 Features ......................................................................................................................................... 2 Honeywell Linkage Kits .................................................................................................................. 5 HAL Software Application.......................................................................................................................... 5 2. Specifications .................................................................................................... 7 Technical and Operating Specifications......................................................................................... 7 Model Selection Guide ................................................................................................................. 11 3. Installation ....................................................................................................... 13 Installation Overview .................................................................................................................... 13 Before Starting ............................................................................................................................. 14 Installation Considerations ...................................................................................................................... 14 Actuator Mounting ........................................................................................................................ 14 Outline Dimension Drawings ................................................................................................................... 14 Mechanical Installation................................................................................................................. 17 Linkage Set-up ........................................................................................................................................ 17 Electrical Installation .................................................................................................................... 22 4. Set Up and Calibration Procedures................................................................. 27 Overview ...................................................................................................................................... 27 Local Display and Keypad............................................................................................................ 27 Set Up Tips................................................................................................................................... 29 Set Up Groups.............................................................................................................................. 29 Set Up Procedure......................................................................................................................... 31 Input Set Up Group ...................................................................................................................... 33 Relays Set Up Group ................................................................................................................... 36 Relay Examples ...................................................................................................................................... 38 Current Out Set Up Group ........................................................................................................... 40 Communications Set Up Group ................................................................................................... 41 Digital Input Set Up Group ........................................................................................................... 42 Display Set Up Group .................................................................................................................. 42 Lock Set Up Group....................................................................................................................... 43 Set/Change Password............................................................................................................................. 44 Read Status Set Up Group .......................................................................................................... 45 Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual v 10260S Series Actuators Drive Set Up Group ...................................................................................................................... 46 Set Tag Name ......................................................................................................................................... 47 Maintenance Set Up Group.......................................................................................................... 48 CAL NCSOUT Group ................................................................................................................... 49 Auto - Manual Drive Switch.......................................................................................................... 50 Calibration .................................................................................................................................... 51 Setting End-of-Travel Limit Switches ........................................................................................... 59 Setting Auxiliary Switches ............................................................................................................ 62 5. Start-Up/Operation .......................................................................................... 65 Power Up Diagnostics.................................................................................................................. 65 Operations Checklist .................................................................................................................... 65 Operating Displays ....................................................................................................................... 66 Motor Stall .................................................................................................................................... 66 Non-Contact Sensor Operation.................................................................................................... 67 Remote Setpoint Operation.......................................................................................................... 67 Regions of Motor Travel............................................................................................................... 68 6. Control Applications ......................................................................................... 69 Split Range................................................................................................................................... 69 Master/Slave Arrangement .......................................................................................................... 70 7. Maintenance ................................................................................................... 75 Basic Maintenance ....................................................................................................................... 75 Spur Gear Lubrication ............................................................................................................................. 75 Replacement Procedures............................................................................................................. 77 Changing Actuator Output............................................................................................................ 79 8. Replacement/Recommended Spare Parts...................................................... 81 Linkage Parts/Kits ........................................................................................................................ 88 Honeywell Actuator Linkage Analysis Software (HAL) ................................................................ 88 9. Troubleshooting .............................................................................................. 89 Introduction................................................................................................................................... 89 Troubleshooting Procedures ........................................................................................................ 90 Appendix A - 10260S Configuration Record Sheet .............................................. 97 Index .................................................................................................................... 99 vi 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 Contents Tables Table 1 Specifications - General ...............................................................................................................................7 Table 2 Recommended Minimum Wire Size..............................................................................................................22 Table 3 Actuator Terminal Connections.....................................................................................................................23 Table 4 Keypad Description .......................................................................................................................................28 Table 5 Set Up Tips ....................................................................................................................................................29 Table 6 Set Up Groups ...............................................................................................................................................30 Table 7 Set Up Procedure Using Display and Keypad ...............................................................................................31 Table 8 Input Set Up Group Parameters .....................................................................................................................33 Table 9 Relay Set Up Group Parameters ....................................................................................................................36 Table 10 Relay Type Descriptions..............................................................................................................................37 Table 11 Current Out Set Up Group Parameters ........................................................................................................40 Table 12 Communications Set Up Group Parameters ................................................................................................41 Table 13 Digital Input Set Up Group Parameters .......................................................................................................42 Table 14 Display Set Up Group Parameters ...............................................................................................................42 Table 15 Lock Set Up Group Parameters ...................................................................................................................43 Table 16 Read Status Set Up Group Parameters.........................................................................................................45 Table 17 Drive Set Up Group Parameters ..................................................................................................................46 Table 18 Maintenance Set Up Group Parameters .......................................................................................................48 Table 19 CAL NCSOUT Group Parameters...............................................................................................................49 Table 20 Auto - Manual Switch Functions .................................................................................................................50 Table 21 Input Calibration Procedure.........................................................................................................................53 Table 22 Motor Calibration Procedure .......................................................................................................................54 Table 23 Output Calibration Procedure ......................................................................................................................55 Table 24 Non-Contact Sensor Calibration Procedure.................................................................................................57 Table 25 Load NCS Factory Calibration ....................................................................................................................58 Table 26 End-of-Travel Limit Switch Setting Procedure ...........................................................................................60 Table 27 Auxiliary Switch Setting Procedure.............................................................................................................63 Table 28 Typical Operating Displays .........................................................................................................................66 Table 29 Split Range Set Up Procedure .....................................................................................................................69 Table 30 Spur Gear Lubrication Procedure ................................................................................................................75 Table 31 Motor Drive Fuse Replacment Procedure....................................................................................................77 Table 32 Relay PWA Replacement Procedure ...........................................................................................................78 Table 33 Changing Actuator Output Type..................................................................................................................79 Table 34 Observable Symptoms of Failure.................................................................................................................89 Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual vii 10260S Series Actuators Figures Figure 1 10260S Smart Actuator ..................................................................................................................................2 Figure 2 10260S Internal View.....................................................................................................................................3 Figure 3 Outline and Dimensions of Herculine Models 10261S, -62S, -64S, -66S, -67S, -68S, and -69S Actuators....................................................................................................................................................15 Figure 4 Outline and Dimensions of Herculine Models 10263S and 10265S Actuators ............................................16 Figure 5 Constant Torque Linkage .............................................................................................................................17 Figure 6 Constant Torque Profile ...............................................................................................................................17 Figure 7 Variable Torque Linkage..............................................................................................................................18 Figure 8 Variable Torque Profile................................................................................................................................18 Figure 9 Turnbuckle Linkage Kit ...............................................................................................................................19 Figure 10 Pipe Leakage Kit ........................................................................................................................................19 Figure 12 Standard 5-Inch Crank Arm .......................................................................................................................20 Figure 13 Projecting Scale Option..............................................................................................................................21 Figure 14 Actuator Terminal Connections..................................................................................................................24 Figure 15 10260S Display and Keypad ......................................................................................................................27 Figure 16 Auto - Manual Switch ................................................................................................................................50 Figure 17 Calibration Wiring Connections.................................................................................................................52 Figure 18 Location of NCS Assembly........................................................................................................................58 Figure 18 End of Travel Limit Switch Settings ..........................................................................................................59 Figure 20 Location of End-of-Travel Limit and Auxiliary Switches..........................................................................61 Figure 20 Auxiliary Switch Settings...........................................................................................................................62 Figure 21 Terminal Block Connections for Modbus Communications ......................................................................68 Figure 22 Regions of Motor Travel ............................................................................................................................68 Figure 23 Flow Diagram.............................................................................................................................................70 Figure 24 Interconnection Diagram ............................................................................................................................70 Figure 25 Proportional Flow Using Multiple Actuators .............................................................................................71 Figure 26 Multiple Actuator Interconnection Diagrams .............................................................................................72 Figure 27 Interconnection Diagrams...........................................................................................................................73 Figure 28 Spur Gear Location.....................................................................................................................................76 Figure 29 Power Distribution PWA and Relay PWA Locations ................................................................................77 Figure 30 Motor Drive Circuit Fuses..........................................................................................................................78 Figure 31 Jumper Location on CPU PWA..................................................................................................................80 Figure 32 10260S Actuator Components....................................................................................................................81 Figure 33 Test for Actuator Operation........................................................................................................................91 Figure 34 Power Up Diagnostics ................................................................................................................................92 Figure 35 Test Power Distribution PWA....................................................................................................................94 Figure 36 Test AUTO - MANUAL Switch ................................................................................................................95 Figure 37 Test Relay Function....................................................................................................................................96 viii 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 1. Introduction - Product Description 1. Introduction Product Description Honeywell’s 10260S industrially rated rotary smart actuators are precision engineered for exceptional reliability, accurate positioning, and low maintenance. (Figure 1) Designed for very precise positioning of dampers and quarter turn valves in the power and processing industries, the 10260S performs especially well in extremely demanding environments requiring continuous-duty, high reliability, and low maintenance. Precise positioning of the actuator is achieved through state-of-the-art motor control and positioning electronics. The motor starts and stops almost instantaneously, preventing overshoot and hunting. Positioning repeatabililty of 0.2% span or better is achievable for extremely tight process control to take full advantage of modern controllers. A no-burnout synchronous induction motor is combined with a heavy-duty precision-machined output worm gear mesh providing a responsive, low maintenance, and non-backdriving actuator. Accidental stalls up to 100 hours can be withstood without damage to the gear train. End-of-travel limit switches are provided as standard equipment to prevent damage to the valve or damper and are backed up by mechanical stops. Honeywell electric actuators provide instantaneous response to a demand signal, eliminating system nonlinearity due to dead time. Additionally, since the actuator is electric, the costs associated with providing and maintaining a clean, dry air supply are eliminated. A heavy duty cast crank arm and precision rod-end bearing is provided with each 10260S actuator. Crank arms can be positioned at any angle on the output shaft and an adjustable radius is provided to allow flexibility in linkage set-up. All 10260S actuators are equipped with a manual handwheel for operation during loss of power or installation. A local auto/manual handswitch can be provided for local operation and has an “out of auto” contact to annunciate that condition. Applications Honeywell actuators have a long and respected history in the industrial actuator market. 10260S actuators are designed for precision modulation of final control devices such as dampers, vanes, fluid couplings, scoop tubes, fuel/air ratio valves, windbox dampers, and coal mill dampers, and quarter turn valves. The robustness of the design serves as the basis for long-term reliability and reduced operating costs. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 1 10260S Series Actuators Top Cover Local Display and Keypad Extended Cover Terminal Cover Crank Arm and Rod End (Access to customer connections) Handwheel Auto-Manual Switch Figure 1 10260S Smart Actuator Features Non-contact Position Sensing (NCS) with True Shaft Position Indication Non-contact position sensing eliminates maintenance problems and nuisance shutdowns that are common with slidewire or potentiometer position sensing. The non-contact position sensor replaces the slidewire and wiper assembly for position sensing. Once calibrated, the non-contacting position sensor requires no maintenance. The non-contact position sensing assembly consists of a position sensor and a bracket as shown in Figure 2. The position sensor “spoiler” is connected directly to the output shaft, reflecting true shaft position. As the output shaft rotates, the sensor “spoiler” rotates and the sensing circuit board detects the change in position. Sensing is accomplished by changing the magnetic field created by the coils in the sensing circuit board. There is no contact between circuit board and spoilers. 2 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 1. Introduction - Features Slidewire Emulation A truly unique feature, slidewire emulation allows direct replacement of existing three-wire control actuators without requiring controller changes while gaining all of the advantages of the maintenance-free non-contact sensing. This is ideal for replacement of installed actuators that cause control problems due to slidewire wear. The slidewire emulation assembly consists of a non-contact position sensor and a bracket as shown in Figure 2. The position sensor is identical to that described previously in the non-contact position-sensing feature. A potentiometric voltage from the controller is supplied to the slidewire emulation circuit. This voltage is ratiometrically conditioned with respect to the output shaft position from 0 to 100% and is available to the controller. Voltages of 1 to 20 Vdc are accepted and this device will emulate 100 to 1000 ohm slidewires. Non-contact Sensor Power Distribution PWA Customer Terminal Connections behind this Cover Extended Cover Assembly and Main PWA Relay PWAs Figure 2 10260S Internal View Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 3 10260S Series Actuators 10260S Smart Electronics Enhanced Electronics Printed Wiring Assembly (Main PWA) An enhanced electronics printed wiring assembly (PWA) provides digital control to the 10260S actuator. The Main PWA is the central interface which features a microprocessor controlled CPU with associated flash PROM and RAM. Other features of the main PWA include an optically isolated 12-bit A/D converter for the 4 to 20 mA input signal, an isolated analog output for 4 to 20 mA output or slidewire emulation voltage, and an RS485 communications channel that supports Modbus RTU protocol. Additionally, the main PWA interfaces with: • The local display and keypad electronics • The local AUTO - MANUAL switch • Digital input circuit • Relay output PWAs • Smart communications PWAs Power Distribution PWA The power distribution PWA provides power distribution of the 120/240 AC input to all actuator components. Solid state switches on the PWA provide control for the motor drive. The power distribution PWA is directly connected to the enhanced electronics PWA in the actuator enclosure. Relay PWA Electromechanical relay circuit assemblies are available as an option. The 10260S actuator can be equipped with up to two relay boards, each containing two SPDT relay output circuits (for a total of four). Relay contacts can be programmed (set up) to indicate various operating conditions within the actuator, such as position range limits, deviation from input, high or low temperature limits, or input out of range. See Relay Set Up Group in Section 4 for additional information. Display and Keypad Interface An alphanumeric display and keypad provides the HMI for local monitoring, set up and control of the actuator. The interface consists of a four character and six character alphanumeric display, LED status indicators and keys to access all operating parameter settings and view actuator operating status. Auto - Manual Switch The Auto-Manual electric handswitch with auxiliary contacts indicating an "Out-of-Auto" position is available for local electric control. The switch provides manual control of the motor drive for actuator set up and calibration. Self-Locking/Releasing Gear Train The worm gear output combination is self-locking and self-releasing and maintains position upon loss of power. It is designed to hold greater than two times the rated output torque in a back-driving condition. This design provides superior reliability without the maintenance associated with other self-locking and brake mechanisms. 4 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 1. Introduction - Honeywell Linkage Kits Motor A 100% duty cycle synchronous induction motor provides crisp and responsive movement for precise and accurate positioning. The very low current draw during operation or in stall combined with the no-burnout characteristics of the motor result in low maintenance, high reliability, and long life. Manual Operation A manual handwheel is provided for positioning of the actuator during power outages or initial installation. The design of the handwheel allows for positioning of the actuator safely under full load conditions. All Position Mounting Honeywell 10260S actuators may be mounted in any orientation making retrofit in tight locations easier. Field Reversible As factory shipped, the actuator is set for counter-clockwise rotation. The actuator can be set for clockwise rotation using the local keypad and display. Customer Connections The 10260S features dedicated wiring terminals for ease of installation. See Figure 13 for specific details. Warranty Period The 10260S actuator warranty is effective for 18 months from the date of shipment, unless otherwise noted. See full warranty statement for details. Honeywell Linkage Kits Honeywell turnbuckle and pipe linkage kits are available and are recommended to provide optimal positioning performance. The rod-end bearing connections eliminate all linkage hysterisis giving accurate and repeatable positioning of the final control element. Section 8 in this manual provides listings of available linkage parts and kits. HAL Software Application Honeywell has designed a linkage analysis program (HAL) that is used to design linkage set-up for your particular application. HAL is a Windows-based software program that aids you in selecting the correct size Honeywell actuator, determine the start angles, linkage length and crank length, and characterize torque profiles for dampers and valves. See your Honeywell sales representative for further information. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 5 10260S Series Actuators 6 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 2. Specifications - Technical and Operating Specifications 2. Specifications This section provides you with the technical specifications and the model selection guide for the 10260S Series Smart Actuators. Technical and Operating Specifications Table 1 Specifications - General Physical Weight 45 lb. (20.5 kg) net Enclosure Precision-machined Aluminum alloy casting, finished in light gray powder coat epoxy. Gear Train Alloy steel, high efficiency steel spur gear primary train with safety fused idler gear. Precision ground, self-locking/self-releasing worm gear final mesh. Mechanical Stops To prevent over-travel. Operating Temperature -30 °C to +75 °C (-20 °F to +170 °F) Storage Temperature -40 °C to +93 °C (-40°F to +200 °F) Relative Humidity 0-99 % R.H. noncondensing, over the full operating temperature range. Scale 0 to 100 % corresponding to full crank arm travel. Crank Arm Adjustable radii (1 7/16" to a maximum of 5"). Position adjustable through 360° rotation. Optional 12” crank arm adjustable 0 – 12” radii. Output Shaft 1" diameter, 1 1/2" long is standard on 10261S, 10262S, 10264S, 10266S, 10267S, and 10268S. 1" diameter, 2" long is standard on 10263S, 10265S and 10269S optional on other models. Output Torque/Full Travel Stroking Time Model # Lb-ft 10261S 10262S 10264S 10266S 10267S 10268S 10269S 10263S 10265S Output Shaft Speed, sec/90° Torque 10 20 40 60 40 80 150 200 300 N-M 15 27 55 80 55 110 200 270 400 @60Hz @50Hz 10 20 40 60 20 40 60 40 60 12 24 48 72 24 48 72 48 72 Rotation 90 degrees between 0 and 100% on scale, limited by mechanical stops. Direction of Rotation Field programmable via local display and keypad. Manual Handwheel Provides a means of positioning the actuator in the event of a power failure or set-up. Lubrication Texaco Starplex 2 EP Grease Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 7 10260S Series Actuators Electrical 120 Vac single phase, 50 or 60 Hz Mains Supply 240 Vac single phase, 50 or 60 Hz Motor Instant start/stop, non-coasting, non-burnout, continuous duty permanent magnet synchronous induction motor. Can be stalled up to 100 hours without damage. Motor Current = No load = full load = locked rotor Model No. 120 V, 50/60 Hz 240 V, 50/60 Hz 10261S, 62S, 64S, 66S 0.4 A (48 VA) 0.3 A (24 VA) 10263S, 10265S 1.0 A (120 VA) 1.0 A (60 VA) 10267S, 68S, 69S 0.8 A (96 VA) 0.3 A (36 VA) Fuses (Motor drive control) Wickmann USA #373-1160-0-41: 1.6 Amp Fast (2) Loss of Power Stays in place. Local Auto - Manual Switch Allows local manual and automatic operation of the actuator. Limit Switches Standard - Two SPDT end of travel limits rated (10 A at 125 Vac, 5 A at 250 Vac). Auxiliary Switches Optional - SPDT switches rated (10 A at 125 Vac, 5 A at 250 Vac). Relays Up to 4 SPDT switches rated (10 A at 125 Vac, 5 A at 250 Vac). Installation Category (Overvoltage Category) Category II: Energy-consuming equipment supplied from the fixed installation. Local level appliances, and industrial control equipment. (EN 61010-1) Pollution Degree Pollution degree 2: Normally non-conductive pollution with occasional conductivity caused by condensation. (ref. IEC 664-1) Certifications CE Compliance Optional CSA/UL Future NEMA 4 Future Torque Settings of Crank Arm Bolts Clamp Bolt Standard Arm (p/n 087449) (1 7/16 to 5 in. adjustment): 85 lb-ft. Optional Long Arm (p/n 154007) (0-12 in. adjustment): 85 lb-ft. Rod End Bolt 8 Standard and long arms: 30-35 lb./ft 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 2. Specifications - Technical and Operating Specifications Specifications - Actuator with Digital Electronics Electrical Input Signals Analog: 0/4 to 20 mA with supplied shunt resistor for current range. (Resistor: 250 ohms ± 0.1 % Part No. 070756) 0/1 to 5 Vdc, 1 to 10 Vdc Digital: Input Impedance Modbus RTU RS485 (Remote setpoint) Input Input Impedance 0/4 to 20 mA 250 ohms 1 to 5 Vdc 10 M ohms Input Characterization Provides characterization of the input signal. Selections are Linear or Square Root. Sensitivity 0.2% to 5% of 90° span, proportional to deadband Hysteresis Less than 0.4% of full scale. Deadband 0.2% to 5.0% of 90° span, adjustable. Shipped at 0.5% span. Repeatability 0.2% of 90° span Voltage/ Supply Stability 0.25% of span with +10/–15% voltage change Temperature Coefficient Less than ±0.030% of span per degree C for 0 °C to 50 °C Zero Suppression 90 % of span Input Filters Selectable spike and low pass filters. Solid State Motor Control Two triac switches for clockwise or counterclockwise motor operation. Transient voltage protection provided. Fail-safe Operation If input signal exceeds configured input range. Selectable and adjustable. Feedback Ssignals 0 to 20 mA, or 4 to 20 mA Less than ±0.05% of span per degree C for –30 °C to 75 °C 0 to 5 Vdc, or 1 to 5 Vdc with 250 ohm resistor ± 0.1 % 0 to 16 Vdc with 800 ohm resistor ± 0.1 % Slidewire Emulation Provides output voltage ratiometric to shaft position and potentiometric to supply voltage (1-20 Vdc) without a slidewire. Emulates a 100 to 1000 ohm slidewire. 10 mA output maximum Digital Input Contact closure: 5 Vdc provided by actuator. Power Isolation Input and output signals are isolated from power. Load Requirement (4-20) Current Out, 0 to 1000 Ω Diagnostics Self-test diagnostics of RAM, SEE memory, Configuration and Calibration at power up. Operation statistics recorded for predictive maintenance. See Maintenance Set Up Group. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 9 10260S Series Actuators Specifications – Local Display and Keypad Display Display Design Multi-segment LED displays that provide up to ten alphanumeric characters. Display arrangement consists of two rows: st 1 row (Upper display) – four characters 2 nd row (Lower display) – six characters. LED indicators Six single LEDs provide actuator status and alarm indications. Display Operating Temperature –30 °C to +50 °C (–20 °F to +122 °F) Automatically shuts off when operating temperature exceeds +50 °C Storage Temperature –40 °C to +93 °C (–40 °F to +200 °F) Keypad Keys Six single pushbutton keys allow access to all status displays and set up group parameters. See Section 4 – Set Up and Calibration Procedures for detailed information on display and keypad functions. Specifications – Communications Display Communications Option RS 485 Serial Communication, Modbus RTU Protocol Connection Twisted pair cable with shield Maximum loop length 600 meters (2000 feet) Communication Mode Half duplex Baud Rate 300, 600, 1200, 2400, 4800, 9600, 19.2K 10 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 2. Specifications - Model Selection Guide Model Selection Guide The following 10260 Smart Actuator models are covered in this manual. You can verify the model description of your actuator by comparing the model number stamped on the top cover identification plate with the following tables in this model selection guide. HercuLine 10260S Smart Actuator Instructions Select the desired key number. The arrow to the right marks the selection available. Make the desired selections from Tables I thru VIII using the column below the arrow. A dot ( ) denotes unrestricted availability. Key Number ______ I - _ II - ___ III - ___ IV - _ V - _ VI - KEY NUMBER - Torque and Speed Output Torque (lb. - ft.) (N - M) 10 20 40 60 40 80 150 200 300 (15) (27) (55) (80) (55) (110) (200) (270) (400) VII _____ - ___ Selection VIII - __ Availability Full Travel Stroking - Time in Seconds 60 Hz 50 Hz 10 20 40 60 20 40 60 40 60 12 24 48 72 24 48 72 48 72 10261S 10262S 10264S 10266S 10267S 10268S 10269S 10263S 10265S TABLE I - POWER SUPPLY - SINGLE PHASE 120 VAC 60 Hz Single Phase 120 VAC 60Hz Motor 120 VAC 50 Hz Single Phase 120 VAC 50Hz Motor 220/240 VAC 60 Hz Single Phase 220/240 VAC 60Hz Motor 220/240 VAC 50 Hz Single Phase 220/240 VAC 50Hz Motor TABLE II - ANALOG INPUT/OUTPUT SIGNALS 4-20 mA, 0-20mA (1-5 Vdc, 0-5 Vdc, 1-10 Vdc, 0-10Vdc) Input 0 - 135 Ohm (series 90 control) Output No Analog Position Output 4-20 mA, 0-20mA (1-5 Vdc, 0-5 Vdc, 1-10 Vdc, 0-10Vdc) Slidewire Emulation 1 2 3 4 0XX 2XX X00 X20 X40 a TABLE III - SWITCH AND RELAY OUTPUTS (2 mech end-of-travel limits standard) Auxiliary Switches None 00X and 2 Aux. SPDT Switches 20X Relay Outputs 4 Aux. SPDT Switches 40X 2 Aux. + 2 Programmable Relay Outputs 22X 2 Programmable Relay Outputs 02X 4 Programmable Relay Outputs 04X Auto/Manual Switch None XX0 One Auto/Manual Switch with Out-of-Auto Contact XX1 TABLE IV - CONFIGURATION INTERFACE Remote None - requires PC interface Local Integrally mounted local display/keypad interface Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 0 1 - 11 10260S Series Actuators TABLE V - COMMUNICATIONS/PROTOCOL Modbus RTU RS485 RS-485 Modbus compliant - standard with EEU Additional Communications Future TABLE VI - OPTIONS A Shafts B Projecting Scale C Crank Arm D Rod Adapter E Linkage Kits TABLE VII- OPTIONS A Weatherproof Selection Availability 0 1 - Standard 5 Inch Extension 3 Inch Extension None 3/4 Inch Shaft Coupling 3/4 Inch Shaft Coupling, CCW to Open 1 Inch Shaft Coupling 1 Inch Shaft Coupling, CCW to Open CW to Open, No Coupling CCW to Open, No Coupling 5 Inch Standard None 12 Inch None 3/8 Inch 5/8 Inch 7/16 Inch 7/8 Inch None 12 to 16 Inch Turnbuckle Kit 16 to 20 Inch Turnbuckle Kit 20 to 24 Inch Turnbuckle Kit 1 Inch Pipe Kit 1.5 Inch Pipe Kit 2 Inch Pipe Kit None NEMA 4 - Future B Approvals None C Tagging UL/CSA - Future CE - Future None Linen (Note 1) (Note 1) Stainless Steel TABLE VIII - FACTORY OPTIONS A Special Manuals No Special Options (US Manual Standard) English (European Format) - Future French (European Format) - Future B Other None Certificate of Conformance Special instrument requirement - Future RESTRICTIONS Restriction Available Only With Letter Table Selection a II X00 b V X0XXX c V 0X100 d V 050XX, 060XX, 051XX, 061XX Note 1: 12 0XXXX 1XXXX 3XXXX X0XXX X1XXX X2XXX X3XXX X4XXX X5XXX X6XXX XX0XX XX1XX XX2XX XXX0X XXX1X XXX2X XXX3X XXX4X XXXX0 XXXX1 XXXX2 XXXX3 XXXX4 XXXX5 XXXX6 0XX 1XX X0X X1X X2X XX0 XX1 XX2 0X 1X 2X X0 X2 XX b b c c c c d d - - - Not Available With Table Selection II 020, X40 Key Number 10263A, 10265A, 10269A Key Number 10263A, 10265A, 10269A Key Number 10263A, 10265A, 10269A Customer must supply tagging information - Up to 3 lines, 22 characters per line. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 3. Installation - Installation Overview 3. Installation Installation Overview The procedures to install the 10260S actuator and place it in service require that you: • Select a suitable location for installation. (See Installation Considerations below.) • Mount the actuator securely. • Install mechanical connections or linkage between control arm and final control element. Use HAL software application to aid in mechanical installation. • Make all electrical connections for actuator according to local and national electrical codes. • Power up actuator. • Enter, verify and adjust set up parameters for proper operation. • Adjust control arm linkage for accurate operation of final control element. This section provides you with mechanical and electrical installation information required to mount and connect the 10260S Smart Actuator to your specific application. Unpacking instructions, installation consisderations, electrical and safety precautions also included in this section should be observed. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 13 10260S Series Actuators Before Starting Unpacking If there are visible signs of damage to the shipping container, notify the carrier and Honeywell immediately. If there is no visible damage, compare the contents with the packing list. Notify the carrier and Honeywell immediately if there is equipment damage or shortage. Please do not return goods without contacting Honeywell Applications Center in advance. The contact number is 1-800-423-9883. Installation Considerations Mount the actuator in a location where it will be easily accessible for maintenance and for manual operation by means of the handwheel. The exact location must be determined in accordance with the linkage used. It is important that the actuator be mounted securely to a solid foundation commensurate with the maximum torque developed. Use studs or bolts that are as large as the foot mounting holes. The following precautions should be taken when selecting an installation site. • Shield the actuator from rain or snow unless the NEMA 4 option was selected. • Allocate sufficient clearance around the actuator for the removal of all covers to permit inspection of internal parts and to provide access to the handwheel. • Use auxiliary shielding to protect the actuator from excessive heat or cold outside of the rating of the Actuator and from corrosive elements • Ambient temperature should not exceed 170 °F (75 °C). • The minimum low temperature limit is –20 °F (–30 °C). Actuator Mounting Install the 10260S actuator in a convenient location in any orientation. Firmly bolt the 10260S to a mounting surface that will not distort when subjected to the torque stresses generated by the actuator. The output shaft of the actuator should be parallel to the output shaft of the driven device. The output shaft crank arm is fully adjustable through 360°. Outline Dimension Drawings An outline and dimension drawing for actuator mounting is furnished with each unit. Figure 3 and Figure 4 are provided here for reference. 14 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 Release 0 4/01 2.50 [ 63.5 ] 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual MOTOR (REF.) 1.94 [ 49.3 ] MODELS: 10261S, 10262S, 10264S, 10266S, 10267S, 10268S, 10269S 10260S INSTALLATION 1.92 [ 48.8 ] 1.24 [ 31.4 ] TAPPED HOLE FOR 3/4" CONDUIT TAPPED HOLE FOR 1" CONDUIT ACCESS COVER TO TERMINAL BOARD HANDWHEEL. (REF) ACCESS COVER 7.94 [ 201.6 ] 5.38 [136.52 ] 4.50 [ 114.3 ] 4.00 [ 101.6 ] 9.98 [ 253.4 ] 16.63 MIN FOR COVER REMOVAL [ 422.4 ] 0.44 [ 11.1 0.75 [19.1 ] 2.03 [ 51.6 ] 2.30 [58.4 ] 0.69 [ 17.5 ] 0.62 [ 15.9 ] 5.03 MAX [ 127.8 ] ACCESS COVER TO SPUR GEARING FULL CRANK TRAVEL 90° 1.00 dia. SHAFT [ 25.4 ] 0.38 [9.7 ] .281(7.14) DIA. HOLE (4) 8.63 [ 219.1 ] 5/16-24 UNF-2B x .500 (12.7) DP. TYP. 4 TAPPED HOLES EACH SIDE 1.36 STANDARD [ 34.5 ] SHAFT 2.13 10269S KNURLED SHAFT [ 54.1] 8.94 [ 227.0 ] 4.47 [ 113.5 ] 3.90 [ 99.1 ] 9.81 [ 249.2 ] 7.80 [198.1 ] 3. WIRING DIAGRAM IS LOCATED ON THE INSIDE OF THE TERMINAL BOARD COVER. 2. PROVIDE ADEQUATE CLEARANCE AT ALL ACCESS COVERS FOR SERVICING AND ADJUSTMENTS. 1. ACTUATOR CAN BE MOUNTED IN ANY POSITION. NOTES: 13.77 [ 349.8 ] AUTO/MANUAL SWITCH 5.50 [ 139.7 ] HANDWHEEL 1/2-20UNF-2B X 1.239[31.47] DEEP THREAD MOTOR 3.38 dia. [ 85.9 ] 1.63 [ 41.4 ] 3. Installation - Actuator Mounting Figure 3 Outline and Dimensions of Herculine Models 10261S, -62S, -64S, -66S, -67S, -68S, and -69S Actuators 15 16 2.50 [ 63.5 ] 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 1.49 [ 37.7 ] 1.94 [ 49.3 ] 10260S INSTALLATION MODELS: 10263S AND 10265S MOTOR (REF) 1.92 [ 48.8 ] TAPPED HOLE FOR 3/4" CONDUIT. TAPPED HOLE FOR 1" CONDUIT ACCESS COVER TO TERMINAL BOARD HANDWHEEL (REF) ACCESS COVER 10.04 [ 254.89 ] 5.50 [ 139,6 ] 4.50 [ 114.3 ] 4.00 [ 101.6 ] 7.99 [ 203.07 ] 16.63 MIN FOR COVER REMOVAL [ 422.4 ] 0.81 [ 20.52 ] 2.15 [ 54.6 ] 0.56 [ 14.1 ] 5.04 [128.0 ] 0.69 [ 17.5 ] 8.88 [ 225.4 ] 2.13 STANDARD [ 54.1 ] SHAFT 0.50 [ 12.7 ] 0.25 [ 6.4 ] 2.13 [ 54.1] ACCESS COVER TO SPUR GEARING FULL CRANK TRAVEL 90° 1.00 dia. KNURLED [ 25.4 ] SHAFT 5/16-24 UNF-2B x 500 (12.7) DP. TYP. 4 TAPPED HOLES EACH SIDE 5.50 [ 139.7 ] 3.90 [ 99.1 ] 12.00 [ 304.8 ] 11.00 [ 279.4 ] 7.80 [ 198.1] 15.00 [ 381.0 ] MIN FOR COVER REMOVAL 1. ACTUATOR CAN BE MOUNTED IN ANY POSITION. 2. PROVIDE ADEQUATE CLEARANCE AT ALL ACCESS COVERS FOR SEVICING AND ADJUSTMENTS. 3. WIRING DIAGRAM IS LOCATED ON THE INSIDE OF THE TERMINAL BOARD ACCESS COVER. NOTES: 14.02 [ 356.1 ] AUTO/MANUAL SWITCH 1/2-20UNF-2B X 1.239(31.47) DEEP THREAD 5.75 [ 146.0 ] 6.00 [ 152.4 ] 11.10 [ 281.99 ] HANDWHEEL 10260S Series Actuators Figure 4 Outline and Dimensions of Herculine Models 10263S and 10265S Actuators Release 0 4/01 3. Installation - Mechanical Installation Mechanical Installation Linkage Set-up Many applications require the use of a linkage assembly and often the final control element does not have a linear torque curve. The 10260S Actuator linkage can be set up to achieve an optimal delivered torque distribution for specific applications. To assist with linkage design, Honeywell offers a linkage analysis software application (HAL). The software can be ordered as P/N 51197910-001. Constant Torque Linkage A constant torque linkage is employed when it is desired to provide a linear torque profile throughout the full range of final control element travel. In this situation, the actuator and driven crank arms will be set-up proportionally with respect to each other. Figure 5 shows a general linkage setup to achieve a linear torque profile and Figure 6 shows the resultant profile. Vertical Centerline Vertical Centerline 45° 45° 45° 45° Linkage Start Drive Unit Crank Arm Stop Close Horizontal Offset Open Damper Crank Arm a/n 23199 Figure 5 Constant Torque Linkage Figure 6 Constant Torque Profile Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 17 10260S Series Actuators Variable Torque Linkage A variable torque linkage is employed when it is desired to provide a non-linear torque profile throughout the full range of final control element travel. In this general situation, the actuator and driven crank arms will be set up to provide a higher torque for seating or unseating the final control element. Figure 7 shows a general linkage setup to achieve a non-linear torque profile and Figure 8 shows the resultant profile. Note that this linkage can be characterized in many different ways by varying start angles and rotation requirements of both the Actuator Crank Arm and the Driven Arm. Vertical Centerline Vertical Centerline 45° Actuator Crank Arm 45° Linkage Close 5° Horizontal Offset a/n 23200 Open Damper Crank Arm Figure 7 Variable Torque Linkage Figure 8 Variable Torque Profile 18 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 3. Installation - Mechanical Installation Turnbuckle Linkage Kits (See Section 8 for available Kit numbers) Turnbuckle linkage kits are available from Honeywell and are used where short lengths are required. The lengths range from 12 to 24 inches and refer to the rod end center-to-center distance. These kits include the turnbuckle, load rod end (left-hand thread), connecting rods and locking nuts. See Figure 9. The actuator rod end (right-hand thread), nut and bolt are supplied with the actuator. The nut and bolt needed to connect the rod end to the load are supplied by the customer. Kits can be ordered with the Actuator via Table VI of the Model Selection Guide or separately as identified in section 8 of this manual. 12 to 24 inches Rod end, nut and bolt are supplied with the actuator Customer supplied nut and bolt 1/2"-20 right-hand threads 1/2"-20 left-hand threads a/n 23201 Figure 9 Turnbuckle Linkage Kit Pipe Linkage Kits (See Section 8 for available Kit numbers) Pipe linkage kits are available from Honeywell and can be used for linkage lengths from 24 to 120 inches (60 to 305 cm). The kits include the mechanical pipe couplings, load rod end (left-hand thread), connecting rods and locking nuts. See Figure 10 Pipe Leakage Kit . The actuator rod end (right-hand thread), nut and bolt are supplied with the actuator. The customer must supply a piece of schedule 40 pipe * (both ends with right-hand NP threads) and a nut and bolt to connect the rod end to the load. Pipe linkage kits can be ordered with the Actuator using Table VI of the Model Selection Guide or separately as identified in Section 8 in this manual. 24 to 120 inches Rod end, nut and bolt are supplied with the actuator Customer supplied nut and bolt Customer supplied pipe* 1/2"-20 right-hand threads 1/2"-20 left-hand threads * cut to size with standard NPT both ends a/n 23202 *Pipe length = Overall linkage length minus (-) 17 inches (43 cm). Figure 10 Pipe Leakage Kit Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 19 10260S Series Actuators Actuator Crank Arms The 10260S Smart Actuator comes standard with a 5-inch crank arm (adjustable 1 7/16” to 5” radius) and there is an optional 12-inch crank arm that is adjustable from 0 to 12”. The 10260S Actuator crank arm uses a standard ½ inch rod end to compliment the turnbuckle and pipe linkage kits. See Figure 11. For applications that use a link rod, a link rod adapter is available as an option in the Model Selection Guide. Crank Arm 1/2" Rod End Figure 11 Standard 5-Inch Crank Arm 20 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 3. Installation - Mechanical Installation Projecting Scale Option The projecting scale option is available for customers whose actuators are direct coupled so that it would be impossible to read the standard scale on the actuator. The projecting scale is attached to the side of the actuator enclosure and is readable from a distance. See Figure 12. Projecting Scale Pointer Figure 12 Projecting Scale Option Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 21 10260S Series Actuators Electrical Installation General Wiring Recommendations WARNING Only qualified personnel should perform wiring. Wiring must conform to national and local electrical codes. In general, stranded copper wire should be used. Unless locally applicable codes dictate otherwise, the recommended minimum wire sizes in Table 2 should be observed. Table 2 Recommended Minimum Wire Size Gage No. Description 14 Earth ground wire to common power supply. 18 Earth ground wire to single actuator. 120/240 V ac line leads. +24 V and common signal leads. Safety Precautions WARNING An external disconnect switch must be installed to break all current carrying conductors connected to the actuator. Turn off power before working on conductors. Failure to observe this precaution may result in serious personal injury. Actuator Connections WARNING The ground terminal must be connected to a reliable earth ground. WARNING While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not open the case while the unit is powered. Do not access the terminals while the unit is powered. The 10260S actuator terminal connections for the field wiring are located behind the cover on the actuator case as shown in Figure 2. Power and field wiring is brought into the actuator through two access holes located on the side of the actuator case. The screw terminals for all customer connections are identified in Table 3. Figure 13 shows the location of the terminal connections on the actuator terminal blocks. Desciptions for power input, input and output signal connections are given below. 22 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 3. Installation - Electrical Installation Table 3 Actuator Terminal Connections Connection Terminal Numbers and LABEL Descriptions See Figure 13. HOT L Hot wire for 120/240 Vac mains supply N-3 Neutral wire for 120/240 Vac mains supply PE Ground Ground wire connection for mains supply AUTO/MANUAL SWITCH CONTACT 10 – 11 Switch contact to indicate setting of actuator AUTO/MANUAL switch. Switch is closed when actuator is “NOT-IN-AUTO” 28 (-) Analog signal input from controller. 29 (+) 30 (-) 31 (+) NEUTRAL 4 – 20 INPUT 4 – 20 OUTPUT * FEEDBACK 32 COMMUNICATION 33 (-) 34 (+) 35 SHIELD 36 COM 37 INP DIGITAL INPUT Analog signal output from actuator. Feedback signal used in conjuction with 4 – 20 OUTPUT voltage when using Slidewire Emulation. Connection for RS485 Modbus loop wires. Customer’s contact closure. SW1 6 - 7 SW1 NC 9 SW1 COM 14 SW1 NO End-of-travel limit switch 1 connections SW2 4 - 5 SW2 NC 8 SW2 COM 15 SW2 NO End-of-travel limit switch 2 connections. SW3/RELAY1 16 17 18 NC COM NO Auxiliary switch 3 or Relay 1 connections. SW4/RELAY2 19 20 21 NC COM NO Auxiliary switch 4 or Relay 2 connections. SW5/RELAY3 22 23 24 NC COM NO Auxiliary switch 5 or Relay 3 connections. SW6/RELAY4 25 26 27 NC COM NO Auxiliary switch 6 or Relay 4 connections. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 23 10260S Series Actuators L 120V/240VAC 50/60 Hz MAINS POWER N 3 4 5 HOT 6 SW2 NC NEUTRAL 7 8 9 SW1 NC SW1 COM SW2 COM PE 12 AUTO/MAN SWITCH CONTACT 19 20 CLOSED WHEN "NOT-IN-AUTO" NC C 13 INTERNAL CONNECTIONS + RESISTOR TO BE MOUNTED * AT INPUT OF CUSTOMER’S 250 W 18 SW1 NO SW2 NO NC C NO SW3/RELAY1 22 23 24 25 26 27 NO NC C NO NC C NO SW5/RELAY 3 SW6/RELAY 4 30 31 32 33 34 35 36 37 - FEEDBACK - SHIELD COM INP 4-20 OUTPUT 4-20 INPUT 17 + - 29 16 + 28 15 21 SW4/RELAY 2 REMOVE RESISTOR FOR VOLTAGE INPUT 14 * COMMUNICATION DIGITAL INPUT INSTRUMENT SLIDEW IRE EMULATION "USE COPPER CONDUCTORS ONLY" Figure 13 Actuator Terminal Connections Power Connections The AC power supply input option is a Table I selection in the model selection guide. Depending on which power supply selection is ordered for your actuator, wire the power input (MAINS POWER) as described in Table 3 and Figure 13. Wiring must confrom to national and local electrical codes CE Wiring The CE approval option is a Table IV selection in the model selection guide. When wiring the actuator power input for CE approved units, you must also install a MOV assembly to the power input. MOV assembly is ordered as a kit. See Section 8 for kit descriptions and part numbers. 24 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 3. Installation - Electrical Installation Input Signal Connections ATTENTION Shielded and grounded cables are recommended. 0/4-20 mA Input Signals For current signal input, use the 250 ohm resistor supplied across terminals 28 and 29 on the actuator terminal block connections. Observing polarity, connect the signal input wires to terminals 28 and 29 of the terminal block. See Figure 13. 0/1-5 Vdc and 0 to 10 Vdc Input Signals For voltage signal input, remove the resistor from terminals 28 and 29 on the actuator terminal block. Observing polarity, connect the signal input wires to terminals 28 and 29 of the terminal block. Output Signal Connections 0/4-20 mA, 0/1-5 Vdc Feedback Signal Connections ATTENTION Shielded and grounded cables are recommended. Actuator output is 4 to 20 mA analog signal. If a voltage input is required for customer devices, a range resistor is needed at the device input. See Table 3 and Figure 13 for more information. Slidewire Emulator Connections ATTENTION Shielded and grounded cables are recommended. Slidewire Emulation output option is a Table II selection in the model selection guide. If you ordered the Slidewire output option for your actuator, it is set at the factory to provide an output that emulates 100 to 1000 ohm slidewires. For terminal block connections to the actuator, refer to Table 3 and Figure 13. If it become necessary to change the actuator output from a slidewire to a current output, See Section 7, Maintenance for the procedure to set or change the actuator output. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 25 10260S Series Actuators 26 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Overview 4. Set Up and Calibration Procedures Overview Once you have installed the 10260S smart actuator, you can verify, set or change certain operating parameters. Set up is accomplished through use of the local display and keypad interface. Please keep in mind that the unit is calibrated at the factory for your application and can be placed into service right out of the box. Changing operating parameters may require recalibration of the actuator. This section details the various operating parameters and functions of the actuator available using the local display and keypad interface, and calibration procedures. Local Display and Keypad The alphanumeric display and keys on the keypad are the local operator interface for control, monitoring, and configuration of the 10260S actuator. The display consists of a four character upper display and a six character lower display. Six LEDs of various colors indicate actuator operating status. Directly below the display are six keys that allow you to setup, monitor, and control the actuator locally, as well as call up various operating parameters and configuration values on the display. Figure 14 shows the physical features of the display and keypad. Table 4 summarizes the various functions you can perform using the keys as well as descriptions of the status indicators. STALLED ALARM MANUAL Upper Display (Four Characters) AUTO Lower Display (Six Characters) SET UP FUNCTION MAN/AUTO DISPLAY Figure 14 10260S Display and Keypad Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 27 10260S Series Actuators Table 4 Keypad Description Key or LED Indicator Function SET UP Places the actuator in the set up group select mode. Sequentially displays set up groups and allows the FUNCTION key to display function parameters within the set up group. See for descriptions of the various options available in the set up groups. Used in conjunction with the SET UP key to select the individual functions of a selected configuration set up group. FUNCTION Used during field calibration procedure. Alternately selects: MAN/AUTO MAN - Actuator is in Manual mode. AUTO - Actuator is in Automatic mode. NOTE: When in Manual mode the POS display is automatically selected so you can use the up and down arrow keys to drive actuator motor manually. Pressing this key repeatedly cycles through the operating parameters that can be shown on the lower display. DISPLAY INP – Input. Shows the value of the actuator input. OP – Output. Shows the value of the actuator output DE – Deviation. Shows deviation between input value and actuator position. POS – Position. Shows current actuator position. Increases the configuration values shown on the display. Also shown as ▲. In manual mode and POSition display selected, pressing this key will drive actuator motor in direction of increasing signal input. Decreases the configuration values shown on the display. Also shown as ▼. In manual mode and POSition display selected, pressing this key will drive actuator motor in direction of decreasing signal input. Indicates the movement of the actuator arm in the counterclockwise direction. NOTE: Actuator rotation is the direction of the output shaft when facing the end of the shaft and refers to the direction of rotation on increasing signal. Indicates the movement of the actuator arm in the clockwise direction. NOTE: Actuator rotation is the direction of the output shaft when facing the end of the shaft and refers to the direction of rotation on increasing signal. 28 STALLED Indicates that the actuator has detected a motor stall condition. ALARM Indicates a programmed alarm condition exists. MANUAL Indicates actuator is in manual mode AUTO Indicates actuator is in automatic mode. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Set Up Tips Set Up Tips Table 5 contains tips that will help you view, verify and enter the operating parameters more quickly. If you can not change the parameters, check the status of the “ SET LOCK” parameter. Also some parameters require that you enter a security password before you access or change the parameter value. Table 5 Set Up Tips Function Tip Displaying Groups Use the SET UP key to display and scroll through the set up groups. The group titles are listed in in the order that they appear on the actuator display. Displaying Functions Use the FUNCTION key to display the individual function parameters under each set up group. The prompts are listed in the order of their appearance in each group. See Tables 8 through 19. Scrolling Pressing and holding the SET UP key will scroll through the set up groups. However, when any set up group is displayed, you can scroll through the set up groups twice as fast using the ▲ or ▼ key. When in any set up group, hold the FUNCTION key in to scroll through the prompts within that group. Changing values quickly When changing the value of a parameter, you can adjust a more significant digit in the upper display by holding in one key ▲ or ▼, and pressing the other ▲ or ▼ at the same time. • The adjustment will move one digit to the left. • Press the key again and you will move one more digit to the left. Exiting Set Up mode To exit Set Up mode, press the DISPLAY key. This returns the display to the same state it was in immediately preceding entry into the Set Up mode. Timing out from Set Up mode If you are in Set Up (configuration) mode and do not press any keys for thirty seconds, the actuator display will time out and revert to the mode and display that was being used prior to entry into Set Up mode. Set Up Groups Pressing the SET UP key on the keypad provides access to the various set up groups and allows you to set up operating parameters, (such as input types and alarms), calibrate the actuator’s inputs and outputs, set communications, and check actuator status. Table 6 on the next page lists the set up groups that are available by using the SET UP and FUNCTION keys on the keypad. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 29 10260S Series Actuators Table 6 Set Up Groups Set Up Group Title Pressing the FUNCTION Key Allows You to… For Details, See SET INPUT Select and set various parameters associated with the input signal to the actuator. Table 8 Select relay functions. NOTE: Set Relay groups will show on display only if relays are installed in the actuator. Table 9 Select the output signal type of the actuator. Table 11 SET COMM Select communication parameters for remote control of actuator when connected to a SCADA system. Table 12 SET DIGINP Select the parameters for external digital input states. Table 13 SET DISPLA Select and set parameters for the local display. Table 14 SET RELAYn n = 1, 2, 3, or 4 SET CUROUT CAL INPUT Calibrate input zero and span values. Calibration Procedure, Table 21 CAL MOTOR Calibrate zero and span values for motor operation. Calibration Procedure, Table 22 CAL CURENT Calibrate actuator output. Calibration Procedure, Table 23 SET LOCK Set or change security password. Enable or disable security access to set up parameters and calibration set up. Table 15 READ STATUS Display operating and alarm status. Display self-test diagnostic results. Table 16 SET DRVINF Display and/or set various parameters specific to the actuator. Table 17 SET MAINT Display various operating statistics. Reset accumulated operating statistics Table 18 Use the display as an indicator, (in this case a voltmeter) so you can verify that the non-contact sensor is operating properly. Table 19 CAL NCSOUT 30 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Set Up Procedure Set Up Procedure Each of the set up groups and their functions are either pre-configured at the factory or set to their default values. Tables 8 through 19 list and describe the options available in each set up group. The following procedure shows you the key press sequence to access any set up group or any associated Function parameter. Make sure lock set up group “LOCK” function is set to “NONE” or “CAL.” Also some parameters require that you enter a security password before you access or change the parameter. You can use this procedure to access the set up groups and select all parameters. Table 7 Set Up Procedure Using Display and Keypad Step Operation Press 1 Enter Set Up Mode SET UP Result Upper Display = SET Lets you know you are in the set up mode and a set up group title is being displayed in the lower display. Lower Display = INPUT This is the first set up group you see when you press SET UP. 2 Select any Set Up Group SET UP Successive presses of the SET UP key will display the other set up group titles as listed in Table 6. You can also use the ▲ or ▼ keys to scroll through the set up groups in both directions. Stop at the set up group title that describes the group of parameters you want to configure. Then proceed to the next step. 3 Select a Function Parameter FUNCTION Upper Display 4-20 Shows the current value or selection for the function prompt in the selected set up group. Lower Display IN TYP Shows the first function prompt within the selected set up group. Example display shows Input group function prompt “IN TYP” and the selection. 4 Select other function parameters FUNCTION Successive presses of the FUNCTION key will sequentially display the other function prompts of the selected set up group. Stop at the function prompt that you want to change, then proceed to the next step. Table continued on next page ⇒ Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 31 10260S Series Actuators Step Operation 5 Change the Value or Selection Press Result These keys increase or decrease the value, or display the next available selection for the selected function prompt. or See Table 5, Set Up Tips for instructions to increase or decrease a value quickly. Change the value or selection to meet your needs. NOTE: If the display flashes, you are trying to make an unacceptable entry, or the value on the display is at its range limit. The display may also show “KEYERR” (Key error). 6 Enter Value or Selection FUNCTION This key selects another function prompt. or SET UP This key selects another set up group. NOTE: Pressing either key will cause the previously selected value or selection to be entered into memory. 7 Exit Set Up mode DISPLAY Exits set up mode and returns actuator to the same state it was in immediately preceding entry into the set up mode. Any changes you have made are stored in memory. If you do not press any keys for 30 seconds, the display times out and reverts to the mode and display shown prior to entering the set up mode. 32 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Input Set Up Group Input Set Up Group Table 8 lists the parameters and selections available when the SET INPUT group is selected. On the keypad and local display: • Press the SET UP key to enter the Input Set Up group. • Press the FUNCTION key to scroll through the prompts listed in the set up group. • Press the ▲ or ▼ keys to view selections or change range settings. Table 8 Input Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting Parameter Definition INPUT ACTUATION TYPE—This selection specifies the signal type and range you are going to use for the actuator input. Be sure that the values configured for the high and low range, alarm setpoint, etc. are within the measuring range for the selected signal range. IN TYP 4-20 0-20 1-5V 0-5V 0-10 R_SP 4 to 20 mA 0 to 20 mA 1 to 5 Volts dc 0 to 5 Volts dc 0 to 10 Volts dc Remote Setpoint (via communications) NOTE: Changing the Input Actuation Type will restore the actuator calibration to its factory values. INP HI 10.0 to 100 INPUT HIGH RANGE VALUE in % is displayed. 0.0 to 90.0 INPUT LOW RANGE VALUE in % is displayed. INP LO FILTYP NOTE: You must set Input Low range to a value that is at least 10% less than Input High range. NONE [default] INPUT FILTER TYPE—Allows selection of a software digital input filter to smooth the input signal. SPIK Spike—Selects spike filter to remove transients in the input signal when actuator is installed in noisy environments. S+LP Spike plus Low Pass—Selects spike and low pass filtering. * Allows setting of lag time constant for low pass filter. LPAS Low Pass—Selects low pass filter. * Allows setting of lag time constant. NOTE: When Remote Setpoint input type (R_SP) is selected, input filter type = NONE. LPFILT * 0 to 50.00 (in seconds) LAG TIME CONSTANT—(Filter Type S+LP or LPAS only) Allows you to set the first order lag time constant of the low pass filter when selected. Range is from 0 to 50 seconds. Continued on next page ⇒ Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 33 10260S Series Actuators Lower Display Upper Display Prompt Selections or Range of Setting Parameter Definition ACTUATOR ROTATION—This selection determines the direction of rotation of the actuator shaft. Direct CCW [default] or CW Counterclockwise rotation Clockwise rotation NOTE: Actuator rotation is the direction of the output shaft when facing the end of the shaft and refers to the direction of rotation on increasing signal. Dband 0.2 to 5.0 (in percent of span) INPUT DEADBAND—Specifies an adjustable gap that is the difference between the setpoint value and the value at which the motor energizes. Deadband is set in percent of full span. default = 0.2 FAILSAFE TYPE—Selects the motor position you want the actuator to go to when input signal is out of range (failsafe). FsFTYP NOTE: Failsafe condition occurs when the input exceeds its range value by 3%, or when the input signal goes to zero. For input types 0 to 20mA, 0 to 5 V, and 0 to 10 V there is no failsafe condition at the zero value. LAST FsFVAL * Last Position—Actuator motor remains at last position. UP Up—Actuator motor moves to full scale value. DOWN Down—Actuator motor moves to zero value. USER User selected value—Actuator motor moves to a customerdefined value. * Allows setting of failsafe input value. 0 to 100 (in percent) FAILSAFE INPUT VALUE—(Failsafe Type USER only) Selects the motor position you want the actuator to go to when input signal is interrupted. Range is from 0 to 100%. default = 0 INPUT CHARACTERIZATION—Selects a characterization type that causes the actuator to characterize a linear input signal to represent a non-linear input. CHAR LINR [default] SQRT Linear—Provides linear characterization of the input signal. Square Root—Provides square root characterization of the input signal. Continued on next page ⇒ 34 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Input Set Up Group Lower Display Upper Display Prompt Selections or Range of Setting PASSWD nnnn n = 1 to 9 Parameter Definition PASSWORD—4-digit password is needed for access to RESTYP parameter. Password can be up to four numbers. NOTE: Password is set (or changed) from the Lock set up group. LD CAL NONE [default] RESTORE CALIBRATION TYPE—Allows you to restore a calbration value to its factory calibration. INP Input—Restores input calibration to the factory calibration. MTR Motor—Restores motor calibration to the factory calibration. COUT Output—Restores actuator output calibration to the factory calibration. ALL All—Restores input, motor and output calibration to the factory calibration. NCS Non-Contact Sensor—Restores non-contact sensor calibration to the factory calibration. NOTE: Selecting the NCS setting allows you perform a factory calibration of the Non-contact sensor after replacement in the field. See “Calibrate NCS Output”. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 35 10260S Series Actuators Relays Set Up Group ATTENTION The Relay set up group parameters are accessible only if relay PWAs are installed in the actuator. 10260S series actuators can be equipped with up to two relay PWAs –for a total of four SPDT relays. Using the Relay set up groups you can program the installed relays to operate in response to various operating conditions. Table 9 lists the parameters and selections available when the SET RELAYn group is selected. Table 9 Relay Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting RTYPny n = 1, 2, 3, or 4 y = 1 or 2 NONE [default] or InPR PosR DEV ULim LLim T Hi T Lo STRT STAL MAN PWRF FsFA PosF DiGI RnyE ✶ X1 or X10k RnyVAL 0.0 to 100.0 n = 1, 2, 3, or 4 y = 1 or 2 Rny HL n = 1, 2, 3, or 4 y = 1 or 2 RLYnHY n = 1, 2, 3, or 4 Parameter Definition RELAY TYPE—Selects the relay number and the relay activation type. See Table 10 Relay Type Descriptions. Input Range—Upper / lower limits of input signal exceeded Position Range—Upper / lower limits of motor position exceeded Deviation—Deviation from input exceeded Upper Limit Travel—Same as PosR for upper limit Lower Limit Travel—Same as PosR for lower limit Temperature High—High temperature limit exceeded Temperature Low—Low temperature limit exceeded Starts—Motor starts limit exceeded Allows setting of multiplier value. Stalled—Motor position does not follow input Manual—Actuator is set to manual mode Power Up Test Failure—Failure of any power up diagnostic Failsafe Alarm—Failsafe condition detected Position Sensor Signal Failure—NCS output out of valid range Digital Input—Digital input closure MULTIPLIER—(Relay Type STRTS only) Selects the multiplier for the number limit of motor starts before the relay is activated. Multiplier specifies the value on display as times one (X1) or times ten thousand (X10k). RELAY VALUE—Sets numerical value of limit where relay trips (energizes). Units are determined by the relay type selection. See Table 10 Relay Type Descriptions for units. HI or LO RELAY HIGH/LOW—Sets relay trip point to high or low limit. 0.0 to 100.0 (in percent) RELAY HYSTERESIS—0.0 to 100.0% of span or full output. NOTE: Relay Hysteresis parameter is accessible only if appropriate relay type is selected. n is the relay number, y is the relay contact. 36 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Relays Set Up Group Table 10 Relay Type Descriptions When this Relay Type is selected… The Relay can be set up to indicate … (RTYP) Input Range The upper / lower limits of the input signal have been exceeded. Relay value parameter defines range limits and units are in percent of full span. Position Range Upper / lower limits of motor position have been exceeded. Relay value parameter defines range limits and units are in either percent of span or degrees of rotation. See “Relay Examples “for setting range limits. Deviation Motor position has exceeded deviation limit from input. (Deviation is defined as: setpoint – motor position = Deviation) Relay value parameter defines limits and units are in percent of span. See “Relay Examples” for setting deviation limit. Upper Limit Travel The motor position has exceeded the upper limit of travel. (Same as Position Range.) Relay value parameter defines limits and units are in degrees of rotation or percent of span. See “Relay Examples” for setting upper limit with hysteresis. Lower Limit Travel The motor position has exceeded the lower limit of travel. (Same as Position Range.) Relay value parameter defines limits and units are in degrees of rotation or percent of span. Temperature High The high temperature limit of the actuator has been exceeded. Range is -30 to +75 °C. Relay value parameter defines temperature limits and units are in either degrees C or degrees F. (Temperature units are defined in the UNITS setting of the DISPLA set up group.) The low temperature limit of the actuator has been exceeded. Range is -30 to +75 °C. Relay value parameter defines temperature limits and units are in either degrees C or degrees F. Temperature Low (Temperature units are defined in the UNITS setting of the DISPLA set up group.) Starts The accumulated motor starts have exceeded the limit. Relay value parameter defines the limit. See “Relay Examples” for setting motor starts limit. Range is from 10 to 99,990,000. Stall The motor is in a stall condition. Manual Mode The actuator in in manual mode. Power Up Test Failure A failure of any one of the power up test diagnostics. See READ STATUS set up group. Failsafe The actuator is in failsafe. (input signal loss or input signal out of valid range) Position Sensor Failure The non-contact sensor output is out of range or has failed. Digital Input The digital input closure. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 37 10260S Series Actuators Relay Examples Relay Type - Position Range Selecting PosR relay type, you can cause the relay to energize when the actuator motor travels below 20% of range and above 80% of range. Note in the example below that Relay 1 is set up to provide two trip points. The first trip point (R11VAL) causes the relay to energize when the motor travels above 80%, the second trip point (R12VAL) is set so the relay energizes when the motor travels below 20%. Set Up Group SET RELAY1 Parameter Value RTYP11 PosR R11VAL 80.0 R11HL HI RTYP12 PosR R12VAL 20.0 R12HL LO RLY1HY 0.0 The figure below shows the resulting action. Motor Position 20% 0% 100% 80% 17 17 Open 18 18 Closed Closed RELAY 1 Normally Open Relay Type - Deviation Setting up a relay to alarm (energize) when the motor position deviates 10% (+ or -) from the actuator setpoint can be set up as follows. Set Up Group SET RELAY1 Parameter Value RTYP11 DEV R11VAL 10.00 R11HL HI RTYP12 DEV R12VAL -10.00 R12HL LO RLY1HY 0.0 The resulting action is shown below. 38 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Relays Set Up Group Relay Type – Deviation, continued Motor Position Input 50% 0% 100% +10% -10% Closed Closed Open RELAY n Normally Open Relay Type – Upper Limit Travel with Hysteresis Selecting relay type ULim will cause the relay to energize when the motor position exceeds the upper limit trip point, and can be set up as follows. Note that relay hysteresis parameter (RLY1HY) value is set to 10, which is 10% of range. This means that when the relay is energized, due to the motor position exceeding the upper limit value, the relay will not de-energize until the motor moves to 10% below the trip point. Set Up Group SET RELAY2 Motor Position Parameter Value RTYP21 ULim R21VAL 70.0 R21HL HI RTYP22 NONE RLY2HY 10.0 60% 0% Open 70% 100% Closed RELAY n Normally Open Motor Position 60% 0% Open 70% 100% Closed RELAY n Normally Open Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 39 10260S Series Actuators Relay Type – Motor Starts Selecting relay type STRT will cause the relay to trip when the number of motor starts exceeds the selected limit. The motor starts value is stored as one of the maintenance group statistics. This example sets the motor starts limit at 200,000 for Relay 1. Set Up Group SET RELAY1 Parameter Value RTYP11 STRT R11 E ✶ X10K R11VAL 20 R11HL HI RTYP12 NONE The resulting action is that Relay 1 will trip when the number of accumulated motor starts in the maintenance group exceeds 200,000. Current Out Set Up Group Table 11 lists the parameters and selections available for the SET CUROUT group. Table 11 Current Out Set Up Group Parameters Lower Display Upper Display Prompt Selections Parameter Definition OUTPUT SIGNAL RANGE—Selects the signal output range. CUROUT 4 – 20 0 – 20 1 – 5V 0 – 5V SW E 4 to 20 mA 0 to 20 mA 1 to 5 Volts 0 to 5 Volts Slidewire Emulation ATTENTION If you change the output signal range of the actuator, you must perform an output calibration. See Calibrating Output. 40 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Communications Set Up Group Communications Set Up Group Table 12 lists the parameters and selections available for the SET COMM group. Table 12 Communications Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting COMMUNICATONS PARAMETERS—Disables or enables parameter displays for Modbus communciations set up. COMM DIS XmtDLY Disabled—Locks out access to communications displays and parameters. MODB Modbus—Allows access to the communication displays and settings for the parameters listed below. 1 to 99 DEVICE ADDRESS—Selects device address when used in a Modbus communications loop. Select an address that is unique to other devices on the communications link. 300 600 1200 2400 4800 9600 19.2k BAUD RATE—Selects the speed of data transfer. All equipment on the link must be set to match the host setting. NONE 10ms 20ms 30ms 40ms 50ms RESPONSE DELAY—Selects the time delay (in milliseconds) before a response to a query is transmitted. ADDRES BAUD Parameter Definition FLOATING POINT DATA FORMAT—Selects the format for transferring floating point data. DBLBYT Byte Order FP B FPBB FP L FPLB Release 0 4/01 Floating Point Big Endian format— Floating Point Big Endian format with byte-swapped— Floating Point Little Endian format— Floating Point Little Endian format with byte-swapped— 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 0123 1032 3210 2301 41 10260S Series Actuators Digital Input Set Up Group Table 13 lists the parameters and selections availible for the SET DIGINP group. Table 13 Digital Input Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting Parameter Definition Digital Input State—Selects the position of the actuator in response to a digital input signal (contact closure). DIGINP NONE EndPos * None—No action by the actuator. UP Up—Actuator motor moves to full scale value. DOWN Down—Actuator motor moves to zero value. USER User selected value—Actuator motor moves to a customerselected value. * Allows setting of End Position Value. 0 – 100. (in percent) END POSITION VALUE—(DIGINP USER only) Selects the motor position you want the actuator to go to when digital input signal present (contact closure). Display Set Up Group Table 14 lists the parameters and selections availible for the SET DISPLA group. Table 14 Display Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting Parameter Definition DECIMAL POINT LOCATION—This selection determines where the decimal point appears in the display. DECMAL 8888 [default] or 888.8 None One Place Note: Be sure the selection agrees with the value to be displayed. If display value requires 4 whole digits, the decimal will not show. UNITS DISPLAY—Selects the units of the position display. EUNITS PCNT Percent—Shows actuator position as a percentage of span. (0 to 100%) DEG Degrees—Shows the actuator position in degrees of rotation. (0 to 90°) Continued on next page ⇒ 42 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Lock Set Up Group Lower Display Upper Display Prompt Selections or Range of Setting Parameter Definition DISPLAY UNITS—Selects standard for unit values for the local display. UNITS SI ENGL SI—Display will show unit values in international (metric) units. (Temperature in degrees C, Date format: ddmmyy) English—Display will show unit values in U.S. units. (Temperature in degrees F, Date format: mmddyy) Lock Set Up Group Table 15 lists the parameters and selections available for the SET LOCK group. Table 15 Lock Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting LOCKID nnnn n = 1 to 9 (Up a limit of 4095) Parameter Definition PASSWORD LOCK—4-digit password can be selected to provide security access to calibration information, set up parameters and supervisory functions. Password can be a number from 0 to 4095. A password is required in order to change the lock parameter. See “Set/Change Password” below. LOCK OUT FEATURE—Selects lockout security for calibration and supervisory functions, and set up groups. LOCK Release 0 4/01 NONE [default] None—No lockout of any calibration or set up groups. You select and change set up group values, and perform field calibration. CAL Calibration—Lockout for calibration groups SET CALIN, SET CALMTR, SET CALOUT and CAL NCSOUT only. You can select and change set up group values. CONF Configuration—Lockout for calibration groups and set up group configuration. You can only scroll through and view set up group values. FULL Full—Lockout for calibration and all set up group values. Only SET LOCK and READ STATUS groups are accessible. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 43 10260S Series Actuators Set/Change Password A password is required to enable and disable lockout features of the actuator. Lock out of calibration information and other supervisory functions are controlled using the password. The password can be any number from 0 to 4095. The password is set and/or changed by using the keys on the kepad and the local display. Follow the steps below to change the password. NOTE: The LOCK parameter must be set to NONE in order to change the password. Step Action 1 Press SET UP key until the display reads SET LOCK. 2 Press the FUNCTION key until the lower display reads LOCKID. 3 The upper display will show 0 (zero). Use the ▲ or ▼ keys to increment the number to the correct password. The default password can also be used. See NOTE below. 4 Press the FUNCTION key so that the lower display reads LOCK. 5 Use the ▲ or ▼ keys so that display reads NONE and LOCK. If the LOCK parameter is not set to NONE, a password must be entered to change the parameter. 6 Press the FUNCTION key until the lower display reads LOCKID. 7 The upper display will show 0 (zero). Use the ▲ or ▼ keys to increment the number to the new password. See NOTE below. 8 Press FUNCTION key to view next parameter, or press DISPLAY to exit set up mode. Password is now set to new value. NOTE: When changing the value of the number, you can adjust a more significant digit in the upper display by holding in one key ▲ or ▼, and pressing the other ▲ or ▼ at the same time. The adjustment will move one digit to the left. Press the key again and you will move one more digit to the left. 44 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Read Status Set Up Group Read Status Set Up Group Table 16 lists the parameters and selections available for the READ STATUS group. Table 16 Read Status Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting Parameter Definition FAILSAFE—Read Only. Shows whether actuator in failsafe. FAILSF NO No—Actuator not in failsafe. YES Yes—Actuator in failsafe, see Troubleshooting section RAM TEST DIAGNOSTIC—Read Only. Shows status of RAM test diagnostic. RAMTST PASS Pass—Test passed, no errors FAIL Fail—Test failed, see Troubleshooting section. SERIAL EEPROM TEST DIAGNOSTIC—Read Only. Shows status of serial electrically eraseable PROM test diagnostic. SEETST PASS Pass—Test passed, no errors FAIL Fail—Test failed, see Troubleshooting section. CONFIGURATION TEST DIAGNOSTIC—Read Only. Shows status of Configuration test diagnostic. CFGTST PASS Pass—Test passed, no errors FAIL Fail—Test failed, see Troubleshooting section. CALIBRATION TEST DIAGNOSTIC—Read Only. Shows status of Calibration test diagnostic. CALTST Release 0 4/01 PASS Pass—Test passed, no errors FAIL Fail—Test failed, see Troubleshooting section. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 45 10260S Series Actuators Drive Set Up Group Table 17 lists the parameters and selections available for the SET DRVINF group. Table 17 Drive Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting VERSON nnnn FIRMWARE VERSION—Read Only. Displays the firmware version currently in use by the actuator’s CPU. 10s 20s 40s 60s STROKE SPEED—Read Only. The speed is the number of seconds it takes for the actuator shaft to move its full range of travel. SPEED Parameter Definition POWER INPUT VOLTAGE AND FREQUENCY—Read Only. Selects the power input voltage and line frequency of the actuator. POWER 1206 1205 2206 2205 1206—120Volts, 60Hz 1205—120Volts, 50Hz 2206—220Volts, 60Hz 2205—220Volts, 50Hz TAG NAME—Selects the tag name or identifier of the actuator. Up to 6 alphanumeric characters. See “Set Tag Name” on next page. TAG nnnnnn MFGDAT mmddyy * or ddmmyy MANUFACTURING DATE—Read Only. Displays datecode of manufacture for actuator. LREP mmddyy * or ddmmyy DATE OF LAST REPAIR—Factory set only. Displays date of last repair. LCAL mmddyy * or ddmmyy DATE OF LAST FACTORY CALIBRATION—Factory set only. Displays date of last factory calibration REPAIR TYPE—Factory set only. Displays a repair code to identify the type of repair service previously performed. REPTYP NONE 01 02 03 04 05 06 07 08 09 10 11 12 13 None Future Non-contact Sensor Main CPU PWA repair Motor service Power Distribution PWA service Switch repair Relay service Gear service Service to repair water damage Service to repair damage caused by heat Service to repair due to over-voltage damage Actuator reconfigured Warranty Repair * NOTE: Date format is set by the UNITS parameter. See SET DISPLA set up group. 46 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Drive Set Up Group Set Tag Name The actuator tag name can be an alphanumeric name up to six characters. The tag name is set by using the keys on the keypad and the local display. Follow the steps below to set the tag name. Step Release 0 4/01 Action 1 Press SET UP key until the display reads SET DRVINF. 2 Press the FUNCTION key until the upper display reads TAG. 3 The lower display contains six digits. A decimal point will be flashing at the leftmost digit for approximately three seconds. Then the decimal point shifts to the right and flashes for three seconds before shifting again to the right. This pattern repeats continuously. 4 Set the digit to the left of the flashing decimal point. Use the ▲ or ▼ keys to scroll through the character set of 0 through 9 and the letters A through Z. Scroll through until the desired character is displayed. 5 Wait for the decimal point to shift to the right and then scroll through using the ▲ or ▼ keys until the next character is displayed. 6 Repeat for each character of the tag until the complete tag name is displayed. 7 Press the FUNCTION key to go to the next parameter, or press DISPLAY to exit set up mode. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 47 10260S Series Actuators Maintenance Set Up Group The Maintenance set up group consists of information about actuator operation accumulated through time. This information (or maintenance statistics) can be used to evaluate actuator operation and determine predicted or scheduled maintenance periods. Table 18 lists the parameters and selections available for the SET MAINTENANCE group. Please note that maintenance statistics are written to the EEPROM every 8 hours. Therefore the statistics are saved in the event of a power interruption. Table 18 Maintenance Set Up Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting TEMP nnnn F * ACTUATOR TEMPERATURE—Read Only. Displays the current internal temperature of the actuator. TEMPHI nnnn F * HIGH TEMPERATURE LIMIT—Displays the high temperature limit of the internal actuator temperature since it was last reset. TEMPLO nnnn F * LOW TEMPERATURE LIMIT—Displays the low temperature limit of the internal actuator temperature since it was last reset. hh:mm:ss ACST ACCUMULATED STALL TIME—Displays the accumulated stall time of the actuator motor since it was last reset. STARTS nnnn ACCUMULATED MOTOR STARTS—Displays the accumulated motor starts since it was last reset. RLnCNT nnnn RELAY CYCLE COUNTS—Displays the accumulated cycle counts of a relay since it was last reset. One relay cycle is when a relay is energized and deenergized. nnnn ACCUMULATED MOTOR STARTS—Displays the st accumulated motor starts in the 1 10% of motor span since it was last reset. See “Regions of Motor Travel” in Section 5 nnnn TOTAL DEGREES OF MOTOR TRAVEL—Displays the total number of degrees of motor travel since it was last reset. nnnn PASSWORD—4-digit password is required to enable maintenance reset function. n = 1, 2, 3 or 4 REGNn nx = 0 to 9 TOTDEG PASSWRD Parameter Definition NOTE: Password is set (or changed) from the Lock set up group. * Temperature units are displayed in degrees C or F, and are set by the UNITS parameter. See SET DISPLA set up group. Note that the upper display contains the parameter name and the lower display contains the value. This is to allow for the display of hours: minutes: seconds. Continued on next page ⇒ 48 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - CAL NCSOUT Group Lower Display Upper Display Prompt Selections or Range of Setting Parameter Definition MAINTENANCE STATISTIC RESET—Allows reset of the following maintenance statistics: MANRST NONE None—No reset of maintenance statisitics STAL Stall—Resets accumulated stall time to zero. STRT Motor Starts—Resets accumulated motor start counts to zero. REGNn n = 0 to 9 Motor Starts in the Region—Resets to zero the th accumulated motor starts for n 10% of motor span. TEMP Temperature Statistics—Resets the high / low temperature limit statistics to zero. TDEG Total Degrees—Resets the total degrees of motor travel to zero. RELn n = 1, 2, 3 or 4 Relay Counts—Resets accumulated relay cycle counts to zero for the relay option number displayed. ALL All—Resets all maintenance statistics to zero. CAL NCSOUT Group The CAL NCSOUT group is used to verify that the non-contact sensor is operating and adjusted properly. This group allows the local display to indicate the output voltage of the Non-contact sensor PWA. This display is used when verifying that the NCS is operating and that it is properly calibrated. Table 19 shows the selections available for the CAL NCSOUT group. Table 19 CAL NCSOUT Group Parameters Lower Display Upper Display Prompt Selections or Range of Setting CALNCS n.nnn * To access the display… Release 0 4/01 Parameter Definition NON-CONTACT SENSOR OUTPUT—Read Only. Displays the output voltage of the non-contact sensor PWA Press Result SETUP until you see Upper Display = Lower Display = CAL NCSOUT FUNCTION Upper Display = Lower Display = DIS CALNCS ▲ or ▼ key Upper Display = Lower Display = BEGN CALNCS FUNCTION Upper Display = Lower Display = n.nnn (NCS PWA output in volts) NCSOUT 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 49 10260S Series Actuators Auto - Manual Drive Switch The Auto - Manual switch is located on the side of the actuator case below the handwheel. The switch allows manual mode control of the actuator motor for set up, calibration and troubleshooting. Figure 15 shows an illustration of the Auto - Manual switch and Table 20 describes the switch settings. The Auto Manual Drive switch setting overrides all input signals (analog signal and remote setpoint) and local display mode settings. CCW MANUAL OFF CW OFF A U T O AUTO - MANUAL DRIVE Figure 15 Auto - Manual Switch Table 20 Auto - Manual Switch Functions Switch Setting 50 Motor Drive Control AUTO Actuator moves according to signal input and set up configuration. CCW Actuator moves to the fully counterclockwise position. CW Actuator moves to the fully clockwise position. OFF Actuator is idle. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Calibration Calibration Calibration of the 10260S Series Actuator may consist of calibrating the non-contact sensor, calibrating the motor circuit that positions the actuator with 0/4-20mA input signal, and calibrating the slidewire emulation output or the 0/4-20mA output signal. Calibration is performed by connecting test equipment to the input terminals or output terminals and then using the keypad and display to step through the calibration group functions. ATTENTION Input calibraton and output calibrations are performed at the factory and may not be necessary. Normally, you may only need to perform Calibrate Motor. Only qualified personnel should perform calibration. Equipment Needed The table below lists the equipment you will need to calibrate the 10260S input and output circuits. Procedure Input Calibration Equipment Needed • A calibrated signal source which can provide current (4 mA to 20 mA) or voltage (0 V to 10 V) with an accuracy of 0.02 % or better. • Two insulated copper leads for connecting the current source to the actuator. Output Calibration • A digital voltmeter with an accuracy of 0.01 % or better. • A 250-ohm resistor 0.01 % tolerance. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 51 10260S Series Actuators Calibration Set up Follow the steps below to set up the test equipment and actuator to verify calibration or perform calibration procedures. Step Action 1 Connect the copper leads from the signal source to the input terminals of the actuator as shown in Figure 16. 2 Place signal source output at zero and switch power on. 3 Connect a 250-ohm resistor across the Output terminals of the actuator and connect the DVM leads to the terminals. 10260S Actuator Calibrated Signal Source + - Terminal Block Input Output 28 29 30 31 - + + 250 ohm resistor needed for current signal source. Digital Voltmeter + - Customer Supplied Figure 16 Calibration Wiring Connections 52 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Calibration Calibrate Input The 10260S actuator accepts a variety of signal inputs. 1. 0 mA to 20 mA, or 4 mA to 20 mA 2. 0 Volts to 5 Volts, 1 Volt to 5 Volts, or 0 Volts to 10 Volts The input type is selected through the Input set up group using the local keypad. Refer to Figure 16 for the wiring connections and follow the procedure in Table 21 to calibrate the input circuit of the 10260 S actuator. ATTENTION For an input calibration to be saved, you must complete the procedure. The calibration will not be saved if you exit without completing the steps of the procedure. To exit calibation mode, press DISPLAY or SETUP keys. Table 21 Input Calibration Procedure Step 1 2 Operation Enter Calibration Mode Calibrate Zero (0%) Press Result SETUP until you see Upper Display = Lower Display = CAL INPUT FUNCTION Upper Display = Lower Display = DIS CAL IN ▲ or ▼ key Upper Display = Lower Display = BEGN CAL IN FUNCTION Upper Display = Lower Display = APLY INZERO • Adjust the signal source to an output value equal to 0% range value. • Wait 5 seconds, then go to step 3. 3 Calibrate Span (100%) FUNCTION Upper Display = Lower Display = APLY INSPAN • Adjust the signal source to an output value equal to 100% range value. • Wait 5 seconds, then go to step 4. 4 FUNCTION Calibration for zero and span input values are now saved. Input calibration is complete. NOTE: The display will automatically go to the CAL MOTOR set up display. See Table 22. You may also exit calibation mode by pressing the DISPLAY or SETUP keys. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 53 10260S Series Actuators Calibrate Motor Use the procedure in Table 22 to calibrate the actuator motor for 0 % and 100 % input signal ATTENTION For a motor calibration to be saved, you must complete the procedure. The calibration will not be saved if you exit without completing the steps of the procedure. Table 22 Motor Calibration Procedure Step 1 2 Operation Enter Calibration Mode Calibrate Zero (0%) Press Result SETUP until you see Upper Display = Lower Display = CAL MOTOR FUNCTION Upper Display = Lower Display = DIS CALMTR ▲ or ▼ key Upper Display = Lower Display = BEGN CALMTR FUNCTION Upper Display = Lower Display = APLY MTR LO • Use the Handwheeel or AUTO/MANUAL switch to manually drive the actuator motor to its low position. • Wait 5 seconds, then go to step 3. 3 Calibrate Span (100%) FUNCTION Upper Display = Lower Display = APLY MTR HI • Use the Handwheeel or AUTO/MANUAL switch to manually drive the actuator motor to its high position. • Wait 5 seconds, then go to step 4. 4 FUNCTION Calibration for zero and span motor positions are now saved. Motor calibration is complete. NOTE: The display will automatically go to the CAL CURENT set up display. See Table 23. You may also exit calibation mode by pressing the DISPLAY or SETUP keys. NOTE: If you are calibrating the motor to a short stroke range, the procedure is the same. ATTENTION When calibrating the motor to a short stroke range, you must reset the end-of-travel limit switches. See Setting End-of-Travel Limit Switches. 54 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Calibration Calibrate Output 10260S actuator can be one of three output types: 1. 0 mA to 20 mA, or 4 mA to 20 mA output 2. 0 Volts to 5 Volts, or 1 Volt to 5 Volts with 250 ohm range resistor 3. Slidewire emulation. The output signal range is selected through the Current Out set up group using the keypad and local display. ATTENTION You must perform an output calibration if you change the output signal range of the actuator. See Current Out Set Up Group. 0/4-20 mA Output The 10260S Actuator comes already calibrated from the factory. If it becomes necessary to do a calibration in the field, adjust the output using the procedure in Table 23. Refer to Figure 16 for a diagram to connect a signal source to the actuator input and a DVM to measure actuator output signal. This procedure provides the steps to calibrate the actuator for a 4 to 20mA output. If you are using another output type, change the procedure accordingly. ATTENTION For an output calibration to be saved, you must complete the procedure. The calibration will not be saved if you exit without completing the steps of the procedure. To exit calibation mode, press DISPLAY or SETUP keys. Table 23 Output Calibration Procedure Step 1 2 Operation Enter Calibration Mode Calibrate Zero (0%) Press Result SETUP until you see Upper Display = Lower Display = CAL OUTPUT FUNCTION Upper Display = Lower Display = DIS CALOUT ▲ or ▼ key Upper Display = Lower Display = BEGN CALOUT FUNCTION Upper Display = Lower Display = xxx ZERO • Read meter connected to actuator output. Procedure continued on next page ⇒ Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 55 10260S Series Actuators Step Operation 2, cont’d Press ▲ or ▼ key Result • Adjust actuator output to a value equal to 0% output as read from the DVM. NOTE: Typically for a 4 mA output, the display will show a value of approximately 381. A lower limit value is imposed on the zero output. If the value is 357 or lower, the actuator will not allow you to calibrate the zero output. The value must be larger than 357 for a valid calibration. 3 Calibrate Span (100%) FUNCTION Upper Display = Lower Display = xxxx SPAN • Read meter connected to actuator output. ▲ or ▼ key • Adjust actuator output to a value equal to 100% output as read from the DVM. • NOTE: Typically for a 20 mA output, the display will show a value of approximately xxxx. 4 FUNCTION Calibration for zero and span output values are now stored. Output calibration is complete. Calibrate Non-Contact Sensor ATTENTION The Non-Contact Position Sensor (NCS) is factory calibrated to a full span, 90 degree rotation. Under normal operation, the NCS does not require calibration. NOTE: Before you perform a calibration of the NCS, it is recommended that you first verify the voltage output from the NCS PWA. See “Non-Contact Sensor Operation” in section 5 for the procedure. NCS calibration may be necessary due to any of the following conditions: • The NCS PWA output is incorrect, • The NCS Printed Wiring Assembly (PWA) in the actuator has been replaced, • The NCS spoiler adjustment has been disturbed. When the Non-contact sensor PWA has been replaced (or serviced), you should perform a calibration of the NCS circuit and then store it as the motor factory calibration. Please note that performing this procedure will destroy any previously stored motor factory calibration values. Table 24 outlines the steps to perform a calibration to the NCS circuit. WARNING While the unit is powered, a potentially lethal shock hazard exists inside the case. 56 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Calibration Table 24 Non-Contact Sensor Calibration Procedure Step Action 1 Remove AC power to the actuator. 2 Remove the seven screws and the extended cover from the actuator case. See Figure 2. Lay extended cover assembly on a flat surface. 3 Reapply AC power to the actuator. 4 Press SET UP key to access the INPUT set up group. Press FUNCTION key until the lower display reads Direct. Press the ▲ or ▼ keys to set Actuator Rotation direction to CCW. NOTE: Actuator direction must be set to CCW for this procedure. Direction can be changed after calibration is complete. 5 Drive the actuator to the 50% position (this refers to the position on the actuator scale for CCW rotation). This should be done manually with the handwheel or with the AUTO - MANUAL switch. 6 Press SET UP key until the display reads CAL NCSOUT. Press the FUNCTION key until the dispaly reads DIS CALNCS. Press the ▲ or ▼ keys until the lower display reads BEGN CALNCS. Press FUNCTION key. The upper display now shows the output of the non-contact sensor PWA in Volts. 7 Loosen the allen screw in the hub of the NCS spoiler just enough to be able to rotate the spoiler. See Figure 17. 8 Adjust the NCS spoiler so that the voltage in the local display is 2.500 + or – 0.020 volts dc. The allen screw should be almost in a vertical position. The bottom edge of the spoiler should almost be horizontal in relation to the NCS PWA. See Figure 17. 9 Tighten NCS spoiler set screw with an allen wrench, holding spoilers located on each side of the NCS PWA in position. IMPORTANT: Spoilers need to be held in position both rotationally and longitudinally along the drive shaft extension. An air gap must be maintained between the surface of the PWA and each spoiler. (Any plastic or paper insulating material may be used to create this gap while positioning the spoilers). Make sure that neither spoiler is touching the sensor PWA when the adjustment is complete. Release 0 4/01 10 Press DISPLAY key to exit calibration mode. 11 Remove AC power to the actuator. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 57 10260S Series Actuators Step Action 12 Install a new gasket and replace extended cover. Secure to actuator with screws. 13 Continue with calibration procedure in Table 25. NCS Spoiler Set Screw Allen Screw 0.05" Hex Bottom of NCS spoiler should be almost horizontal when properly positioned NCS Spoiler NCS PWA Figure 17 Location of NCS Assembly Table 25 Load NCS Factory Calibration Step Action 1 Reapply AC power to the actuator. 2 Press SET UP key to access the INPUT set up group. Press the FUNCTION key until the display reads LD CAL. Press the ▲ or ▼ keys until the display reads NCS. 58 3 Perform the Calibrate Motor procedure exactly as in Table 22. Motor calibration must be performed for full span range. 4 When motor calibration is complete, the calibration is now stored as the factory calibration of the actuator motor. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Setting End-of-Travel Limit Switches Setting End-of-Travel Limit Switches ATTENTION Referring to Figure 19. The first two cams (starting from the back) are for the 0 % and 100 % limit switches (Switch #1 and Switch #2) and should not need any adjustments as they are factory set to stop the drive precisely at 0 % and 100 %. See Figure 18 for limit switch settings. END OF TRAVEL LIMIT SWITCH S ETTINGS (FACTORY SET A T 0% AND 100%) LEFT HAND POINTER SCALE 14 SW#1 100% 0% 8 (SW1 COM) NC 9 (SW2 COM) 7 Clockwise Rotation 5 SW#2 NC 15 Counterclockwise Rotation Clockwise and counterclockwise rotation is the direction of the output shaft when facing the end of the shaft. As shown, clockwise rotation of the output shaft activates SW 1 (at 0% on the left hand pointer scale) and CCW rotation activates SW 2 (at 100% on the left hand pointer scale). Terminal numbers are next to the circles. Figure 18 End of Travel Limit Switch Settings REFERENCE An unactuated switch will have its normally closed (NC) contacts closed and its normally open (NO) contacts open. An actuated switch will have its NC contacts become open and its NO contacts become closed. Both NC and NO contacts are available at the terminal block. (See Figure 13.) An unactuated switch has its roller arm in the up position when adjacent to the reduced diameter portion of the cam. If it becomes necessary to do adjust the limit switch cams in the field, use the procedure given in Table 26. WARNING While the unit is powered, a potentially lethal shock hazard exists inside the case. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 59 10260S Series Actuators Table 26 End-of-Travel Limit Switch Setting Procedure Step Action 1 Remove AC power to the actuator. 2 Remove the seven screws and the extended cover from the actuator case. See Figure 2. Lay extended cover assembly on a flat surface. 3 Turn the locking nut, found behind the NCS sensor, counter-clockwise using a 1/8” allen wrench or the equivalent inserted into the radial holes in the locking nut until it is possible to turn the cams with your fingers. 4 Using a flat blade screwdriver on the slots at the edge of the cams, or your finger, rotate the cams until the switches are set. (See Figure 19). • Rotate the actuator shaft, using the manual handwheel or the auto-manual switch, to the 0% position (this is the 0% for CCW operation using the left-hand scale or 100% for CW operation using the right hand scale). If the actuator is installed on a damper or valve, also make sure that this position is synchronized with the travel of the final control element. • Rotate the #1 limit switch operating cam to activate at this position. The switch roller arm should go from being in an up, not depressed state, to a depressed state as the cam is rotated in the direction of the shaft rotation going toward the limit position. This will cause the switch to go from NC to NO and turn off the power to the motor when the switch activates. Switch activation may be detected by the clicking sound or with a continuity tester connected to the terminals. Both the NC and NO contact states are available to the customer at the terminals (see Figure 13). • Rotate the actuator shaft, using the manual handwheel or the auto-manual switch, to the 100% position (this is 100% for CCW operation using the left-hand scale or 0% for CW operation using the right hand scale). If the actuator is installed on a damper or valve, also make sure that this position is synchronized with the travel of the final control element. • Rotate the #2 limit switch operating cam to activate at this position. The switch roller arm should go from being in an up, not depressed state, to a depressed state as the cam is rotated in the direction of the shaft rotation going toward the limit position. This will cause the switch to go from NC to NO and turn off the power to the motor when the switch activates. Both the NC and NO contact states are available to the customer at the terminals (see Figure 13). • If optional auxiliary switches were ordered, these switches may also be set at this time. (See Setting Auxiliary Switches in this section.) 60 5 Once the cams are set in the correct positions, turn the locking nut clockwise until snug tight (it does not have to be “hard” tight and does not have to completely flatten the spring washer). 6 Double check limit switch actuation by first manually driving the actuator to each end of travel and hearing the switch click or by detecting it with a continuity tester. Secondly, drive the actuator to both ends of travel (using the auto/manual switch or by providing minimum and full input signal) and make sure the switches activate and turn off the motor. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Setting End-of-Travel Limit Switches ATTENTION Make sure you do not to set the switches too close to the hard stop. Locking Nut Cam 1 (ref.) Cam Slots Switch 1 Switch 3 Switch 5 Note: Switches 2, 4, and 6 are located on left side. Figure 19 Location of End-of-Travel Limit and Auxiliary Switches Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 61 10260S Series Actuators Setting Auxiliary Switches ATTENTION Referring to Figure 19. The first two cams (starting from the back) are for the 0 % and 100 % end of travel limit switches (Switches #1 and #2) and should not need any adjustments as they are factory set to stop the actuator precisely at 0 % and 100 %. See Setting End-of-Travel Limit in this section. If optional auxiliary switches were ordered, these switches are factory set to 10 % and 90 % for switches #3 and #4 and to 20 % and 80 % for switches #5 and #6. Additional switch settings should be set so that switch #3 operates in synchronism with switch #1 (i.e., both activating when the actuator is going in the same direction) and switch #4 to operates in synchronism with switch #2, etc. See Figure 20 for auxiliary switch settings. LEFT HAND POINTER SCALE 0% 10% 20% SW#3 17 (SW3 COM) 18 NO 19 24 NO 25 SW#6 NC 20 (SW4 COM) 16 NC SW#4 SW#5 80% 90% 100% (SW6 COM) 26 23 (SW5 COM) NO 22 NC NC 21 NO 27 Clockwise and counterclockwise rotation is the direction of the output shaft when facing the end of the shaft. As shown, clockwise rotation of the output shaft activates SW 3 (at 10% on the left hand pointer scale) and CCW rotation activates SW 4 (at 90% on the left hand pointer scale). Switch 5 is set to activate similar to SW 3 on clockwise rotation (at 20% on the left hand pointer scale). CCW rotation activates SW 6 (at 80% on the left hand pointer scale). Terminal numbers are next to the circles. Figure 20 Auxiliary Switch Settings If it becomes necessary to do adjust the auxillary switch cams in the field, use the procedure given in Table 27. WARNING While the unit is powered, a potentially lethal shock hazard exists inside the case. 62 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 4. Set Up and Calibration Procedures - Setting Auxiliary Switches Table 27 Auxiliary Switch Setting Procedure Step Action 1 Remove AC power to the actuator. 2 Remove the seven screws and the extended cover from the actuator case. See Figure 2. Lay extended cover assembly on a flat surface. 3 Turn the locking nut, found behind the sensor, counter-clockwise using a 1/8” allen wrench or the equivalent inserted into the radial holes in the locking nut until it is possible to turn the cams with your fingers. 4 Using a flat blade screwdriver on the slots on edge of cams, or your fingers, rotate the cams until the switches are set. (See Figure 19) • The auxiliary switches should be set so switches #3 and #5 operate in synchronism with switch #1 (i.e., both activating when the drive is going in the same direction) and set switches #4 and #6 to operate in synchronism with switch #2. See Figure 20 for auxiliary switch settings. 5 For Switches #3 and #5: • Rotate the actuator shaft, using the manual handwheel or the auto-manual switch, to the desired low scale position. • Rotate the #3 switch operating cam to activate at this position. The switch roller arm should go from being in an up, not depressed state, to a depressed state as the cam is rotated in the direction of the shaft rotation going toward the limit position. This will cause the switch to go from NC to NO and turn off the power to the motor when the switch activates. Switch activation may be detected by the clicking sound or with a continuity tester connected to the terminals. Both the NC and NO contact states are available to the customer at the terminals (see Figure 13). • Repeat for Switch #5 if applicable. 6 For Switches #4 and #6: • Rotate the actuator shaft, using the manual handwheel or the auto-manual switch, to the desired up scale position. • Rotate the #4 switch operating cam to activate at this position. The switch roller arm should go from being in an up, not depressed state, to a depressed state as the cam is rotated in the direction of the shaft rotation going toward the limit position. This will cause the switch to go from NC to NO and turn off the power to the motor when the switch activates. Both the NC and NO contact states are available to the customer at the terminals (see Figure 13). • Repeat for Switch #6 if applicable. Release 0 4/01 7 Once the cams are set in the correct positions, turn the locking nut clockwise until snug tight (it does not have to be “hard” tight and does not have to completely flatten the spring washer). 8 Double check limit switch actuation by first manually driving the actuator to each end of travel and hearing the switch click or by detecting it with a continuity tester. Secondly, drive the actuator to both ends of travel (using the auto/manual switch or by providing minimum and full input signal) and make sure the switches activate and turn off the motor. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 63 10260S Series Actuators 64 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 5. Start-Up/Operation - Power Up Diagnostics 5. Start-Up/Operation Introduction After the actuator is completely installed, wired, and the preliminary adjustments made, it is advisable to check the operation of the actuator and controlled device before placing it in service. In other words, operate the controlled device and check its direction of travel in response to an increase of the input signal and make sure it is correct for the process. Actuators having the optional auto-manual switch must have the knob set in the AUTO position. This section provides a checklist that can be used to do a walk-through with the actuator before it is actually used for control. Other features which may be helpful in understanding actuator operation are also provided. Power Up Diagnostics When power is applied to the actuator, the actuator electronics performs a diagnostic routine on various device components. These tests include a: • RAM diagnostic (RAMTST), • Check of the electrically eraseable PROM (SEETST), • Verification that valid parameter values are in the actuator configuration (CFGTST), • Verification of valid calibration values (CALTST) • Test of the local display and LED indicators (all display segments and LED indicators light simultaneously). The local display shows the status of the diagnostics as they are completed during power up. TEST DONE is shown on the display when diagnostics are complete and actuator should be in AUTO mode. See Table 16 for more information on the power up diagnostics. Operations Checklist To make sure that the actuator is properly installed and set up for your particular application, you should check and verify the following: • Verify that the configuration is correct for your application by stepping through all set up groups and checking the setting of all set up parameters. • Verify operation of end-of-travel limit switches. • Verify operation of auxiliary switches or relay function (if installed). • Check operation of AUTO - MANUAL DRIVE switch (if present), by setting the knob to the CW and CCW - MANUAL positions. The output shaft should rotate in the direction indicated by the knob. The LED indicator on the local display should also indicate the actuator is in manual mode. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 65 10260S Series Actuators Operating Displays Pressing the DISPLAY key cycles the display through a number of operating parameters. Table 28 shows a number of sample displays that can be shown during operation. Table 28 Typical Operating Displays Display Description Input— Upper Display = Shows input value Lower Display = prompt Output— Upper Display = Shows input value Lower Display = Shows output value Deviation— Upper Display = Shows input value Lower Display = Shows value of deviation of sensor from input. Position— Upper Display = Shows value of position sensor. Lower Display = prompt 0.0 INP 00 OP 0.5 100.0 DE 99.9 0.6 POS NOTE: Position display will show negative values, if appropriate. NOTE: When the AUTO/MANUAL key is pressed, placing the actuator in manual mode, only the Position display (POS) is available on the local display. The DISPLAY key is locked out. Set up parameters can be accessed. Motor Stall The actuator is equipped with a low current motor that prevents against burnout if the motor becomes stalled. A stall condition occurs when the motor position does not follow the input, or if the motor does not reach setpoint within a given period of time. The actuator sets the STALLED LED indicator on, along with any other alarms or relay contacts that are programmed to close when a stall condition is detected. The maintenance statistic for accumulated stall time is incremented. A stall condition is not detected if a limit switch is set while the motor is moving toward setpoint, or if the motor position is within 0.5 % of setpoint. 66 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 5. Start-Up/Operation - Non-Contact Sensor Operation Non-Contact Sensor Operation The non-contact sensor (NCS) is magnetically coupled to the output shaft of the actuator so that the sensor detects shaft position. The sensor is adjusted at the factory and under normal conditions, the NCS requires no adjustment. A simple check can verify that the sensor working properly and that it is in adjustment. Verification of the NCS output is performed by setting the drive motor to its zero, midpoint and 100% positions and observing the output voltage of the non-contact sensor PWA. The actuator has a feature that the NCS output voltage can be read from the local display. Step Action 1 Drive the motor to 50% position. 2 Press SET UP key on the keyboard until the display reads CAL NCSOUT. Press FUNCTION key until the display reads DIS CALNCS. Press the ▲ or ▼ keys until the display reads BEGN CALNCS. Press the FUNCTION key. Upper Display = n.nnn (Output voltage of the non-contact sensor) Lower Display = NCSOUT 3 The display should read 2.500 + or – 0.060 Volts. 4 Press DISPLAY key and then drive the motor to zero position. Repeat Step 2. The display should read 1.600 + or – 0.060 Volts. 5 Press DISPLAY key and then drive the motor to 100% position. Repeat Step 2. The display should read 3.400 + or – 0.060 Volts 6 If the NCS needs adjustment, refer to the “Calibrate Non-Contact Sensor” procedure in Table 24 in Section 4. Remote Setpoint Operation The 10260S actuator can be set up to receive a digital input from a remote source. The actuator uses RS485 communications that supports digital Modbus RTU protocol. Press the SET UP key to select the Input set up group. Change the Input Type to Remote Setpoint (R_SP). Make the necessary connections to terminals 33, 34 and 35 on the actuator terminal block. See Figure 21. Communicaton parameters should be set to the same values as the host device. The actuator communication parameters are accessed in the Communications Set Up group. There are some restrictions to actuator operation when remote setpoint input is active. In order to provide a bumpless transfer when switching from one input signal type to remote setpoint, the actuator will use the last known analog input value as its setpoint when swtiching to remote setpoint input operation. The actuator motor can only be set to full span (90 degrees of rotation). It cannot be set to a reduced range of rotation. No input filtering is active on the input signal to the actuator. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 67 10260S Series Actuators Actuator Terminal Block 32 33 34 35 36 37 FEEDBACK - + SHIELD COM INP COMMUNICATION DIGITAL INPUT Figure 21 Terminal Block Connections for Modbus Communications Regions of Motor Travel The full span of motor travel is 90° rotation. The span is divided into 10 regions of motor travel as shown in Figure 22 (regions are numbered 0 through 9). Maintenance statistics are accumulated on the total number of motor starts, as well as the total number of motor starts that occur in each region of travel. The statistics can be accessed in the maintenance set up group. The counts can also be reset to zero if desired. See Maintenance Set Up Group for more information. The regions of travel are set for full span motor travel (90° rotation). If the actuator is set up to operate in a smaller range, for example between 40% and 80% of full span, the maintenance statistics will show motor starts only in regions 4 through 7. Percent of Span 0% Region of Travel 0 20% 1 0o Degrees of Rotation 40% 2 3 30o 60% 4 5 80% 6 7 60o 8 100% 9 90o Figure 22 Regions of Motor Travel 68 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 6. Control Applications - Split Range 6. Control Applications Introduction The 10260S Smart Actuator can operate in a variety of control applications. Examples are given in this section for the actuator to operate in: • A basic flow control application • Proportional flow application using multiple actuators • A split valve configuration. Split Range The 10260S actuator can be set up to operate within a narrow input range (for example, 4 to 12mA input) in certain applications. The procedure in Table 29 describes how to set up an actuator to operate as part of a split valve configuration. Table 29 Split Range Set Up Procedure Step Action To Set Actuator span to operate from 4 to 12 mA input. 1 Enter Set Up mode by pressing SET UP key 2 Select SET INPUT group 3 Press FUNCTION key until INP HI (on lower display) is selected. 4 Set INP HI value to 50.0 5 Press FUNCTION key to select INP LO and set value to 0.0 6 Press DISPLAY key to exit Set Up mode. To Set Actuator span to operate from 12 to 20 mA input. 1 Enter Set Up mode by pressing SET UP key 2 Select SET INPUT group 3 Press FUNCTION key until INP HI (on lower display) is selected. 4 Set INP HI value to 100.0 5 Press FUNCTION key to select INP LO and set value to 50.0 6 Press DISPLAY key to exit Set Up mode. ATTENTION Be sure to review failsafe strategy for your process application. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 69 10260S Series Actuators Master/Slave Arrangement Introduction With the motor positioner, the controlling signal for the actuator is a 4 mA to 20 mA from a current output controller as shown in the flow diagram in Figure 23. Unlike the position output controller, the current output controller must produce a continuous analog signal or the actuator will revert to one of its failsafe states. Signal failure is not a problem since the available failsafe settings allow you to set the actuator position on signal loss. Basic Flow Control When the process variable signal is below set point, the controller increases current (4 mA to 20 mA) to the actuator input and opens the valve. Controller set point governs valve position to obtain desired flow rate. Orifice Plate PV FT Positioner & Actuator Controller SP FIC Valve 4 to 20 mA MP Linkage Position mA Figure 23 Flow Diagram Current Output Controller 10260S Series Actuator + 4 to 20 mA - 250 Ohms 1 to 5 VDC Hot Neutral Ground 120/240 VAC Figure 24 Interconnection Diagram 70 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 6. Control Applications - Master/Slave Arrangement Proportional Flow using Multiple Actuators Refer to flow diagram in Figure 25 and interconnection diagrams in Figure 26. The controller governs flow rate in one burner. Only that flow is measured. Since #2 and #3 motor positions receive the same signal as #1 motor positioned, valves #2 and #3 will deliver the same amount of fuel. This is true when the span and zero adjustment are all set the same as in curve 2 of the graph. Other relationships between units exist if the span adjustment (3) for ratio or if the zero adjustment is changed (1) for bias. Orifice Plate PV FT Positioner & Actuator Controller SP FIC 4 to 20 mA MP #1 Valve Linkage MP #2 Linkage Valve Proportional with Bias MP #3 Linkage Valve Ratio Position mA Figure 25 Proportional Flow Using Multiple Actuators Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 71 10260S Series Actuators Current Output Controller 10260S Series Actuator #1 + 4 to 20 mA Note: Controller must be capable of sourcing the impedance. 250 Ohms 1 to 5 VDC Hot Neutral Ground 120/240 VAC 10260S Series Actuator #2 250 Ohms 1 to 5 VDC Hot Neutral 120/240 VAC Ground 10260S Series Actuator #3 Preferred Wiring 250 Ohms 1 to 5 VDC Current Output Controller - 120/240 VAC 10260S Series Actuator #1 + 4 to 20 mA Hot Neutral Ground 250 Ohms 1 to 5 VDC Hot Neutral Ground 120/240 VAC 10260S Series Actuator #2 Hot Neutral 120/240 VAC Ground 10260S Series Actuator #3 Alternate Wiring Hot Neutral 120/240 VAC Ground Figure 26 Multiple Actuator Interconnection Diagrams 72 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 6. Control Applications - Master/Slave Arrangement Split Valve Configuration A common heat or cool type process requires two valves. In this case the controller has only one output. The two motor positioners are calibrated differently, one responds to 4 mA to 12 mA and the other responds to 12 mA to 20 mA. At 12 mA both valves are closed, one opening below 12 mA and the other above 12 mA. Refer to Figure 27 for an interconnection diagram for split valve operation using two actualtors. Current Output Controller 10260S Series Actuator #1 + 4 to 20 mA Note: Controller must be capable of sourcing the impedance. 250 Ohms 1 to 5 VDC 120/240 VAC 10260S Series Actuator #2 Preferred Wiring 250 Ohms 1 to 5 VDC Current Output Controller 4 to 20 mA Hot Neutral 120/240 VAC Ground 10260S Series Actuator #1 + - Hot Neutral Ground 250 Ohms 1 to 5 VDC Hot Neutral Ground 120/240 VAC 10260S Series Actuator #2 Hot Neutral 120/240 VAC Ground Alternate Wiring Figure 27 Interconnection Diagrams Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 73 10260S Series Actuators 74 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 7. Maintenance - Basic Maintenance 7. Maintenance Introduction There is some basic maintenance that is recommended for the 10260S Series Smart Actuators. The electronic PWAs within the actuator require no maintenance or servicing under normal conditions. If there is a problem, refer to information in this section as well as Section 9 – Troubleshooting. Basic Maintenance Non-Contact Sensor Under normal conditions the non-contact sensor PWA does not require maintenance. Main Gear Lubrication Under normal operating conditions, the main worm gear should not require maintenance. Spur Gear Lubrication Honeywell recommends that during major shutdown periods the spur gears should be inspected and lubricated. Follow the steps in Table 30 to access the spur gear compartment and lubricate the gears if necessary. WARNING Disconnect power before opening the actuator case to inspect the actuator gears. A potentially dangerous pinch hazard exists inside the case if the unit is opened while powered. Table 30 Spur Gear Lubrication Procedure Step Release 0 4/01 Action 1 Remove AC power from actuator. 2 Remove the six screws and the side cover of the actuator case. See Figure 28. 3 Inspect the final spur gear, the idler gear and motor pinion for excessive wear and adequate lubrication. See Figure 28. 4 If needed, use Texaco Starplex 2 EP grease, or equivalent and apply lubricant to assure that the gears are adequately protected. 5 Install a new gasket and replace side cover. Secure to actuator with screws. 6 Restore actuator to service. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 75 10260S Series Actuators Spur Gears Side Cover Gasket Side Cover Final Spur Gear Idler Gear Motor Pinion Figure 28 Spur Gear Location 76 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 7. Maintenance - Replacement Procedures Replacement Procedures Fuse Replacement The motor drive circuit contains two fuses. They are located on the power distribution PWA. If it becomes necessary to replace these fuses, follow the procedure in Table 31 and refer to Figure 30 for fuse location. WARNING Disconnect power before opening the actuator case to replace the fuse(s). A potentially lethal shock hazard exists inside the case if the unit is opened while powered. Table 31 Motor Drive Fuse Replacment Procedure Step Action 1 Remove AC power from actuator. 2 Remove the seven screws and the extended cover of the actuator case. See Figure 29. 3 Lay assembly down on a flat surface and remove old gasket. 4 Locate the two fuses on the power distribution PWA. See Figure 30. Carefully remove and replace fuse(s) with Wickmann T1 type 6A 250V, or equivalent. 5 Install a new gasket and replace extended cover. Secure to actuator with screws. Power Distribution PWA Extended Cover Assembly Relay 3 and 4 PWA Relay 1 and 2 PWA Figure 29 Power Distribution PWA and Relay PWA Locations Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 77 10260S Series Actuators Fuses for Motor Drive Circuit Power Distribution PWA Figure 30 Motor Drive Circuit Fuses Relay PWA Replacement If a relay PWA needs to be replaced, follow the procedure in Table 32 to access and replace the PWA. WARNING Disconnect power before opening the actuator case. A potentially lethal shock hazard exists inside the case if the unit is opened while powered. Table 32 Relay PWA Replacement Procedure Step 78 Action 1 Remove AC power from actuator. 2 Remove the seven screws and the extended cover of the actuator case. See Figure 29. 3 Lay assembly down on a flat surface and remove old gasket. 4 Disconnect the wire connector from the relay PWA. 5 Carefully remove the relay PWA. Turn the locking tabs of the card guides away to unlock the PWA and slide it out from the card guides. 6 Install the replacement relay PWA by sliding it into the card guides until it mates with the Main CPU. Turn the locking tabs on the card guides to secure the PWA in place. 7 Plug in wire connector to relay PWA. 8 Install a new gasket and replace extended cover. Secure to actuator with screws. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 7. Maintenance - Changing Actuator Output Changing Actuator Output There are mechanical jumpers located on the CPU PWA that determine the actuator output signal type (4 mA to 20 mA or slidewire emulation). If it becomes necessary to change the output of the actuator from a 4 mA to 20 mA analog output to a slidewire emulation, or vise versa, follow the procedure in Table 33. WARNING Disconnect power before opening the actuator case. A potentially lethal shock hazard exists inside the case if the unit is opened while powered. Table 33 Changing Actuator Output Type Step Action 1 Remove AC power from actuator. 2 Remove the seven screws and the extended cover of the actuator case. See Figure 29. 3 Lay assembly down on a flat surface and remove old gasket. 4 Locate the mechanical jumpers W1, W2, and W4 on the CPU PWA. See Figure 31. 5 Set the jumpers according to the desired output type. See Figures. Jumper settings for Slidewire Emulation output W4 W2 W1 6 Release 0 4/01 Jumper settings for 4 to 20 mA output W4 W2 W1 Install a new gasket and replace extended cover. Secure to actuator with screws. 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 79 10260S Series Actuators CPU Printed Wiring Assembly Jumpers W1, W2 and W4 Figure 31 Jumper Location on CPU PWA 80 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 8. Replacement/Recommended Spare Parts - 8. Replacement/Recommended Spare Parts Introduction This section provides you with a complete list of all the spare parts that may be needed for the 10260S Series Actuators and optional equipment. Each kit contains replacement parts accessories and instructions for component replacement. The numbers in Figure 32 identify the location of various actuator replacement components and are keyed to parts kits listed in this section. 5 7 6 2 9 1 8 4 3 Figure 32 10260S Actuator Components Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 81 10260S Series Actuators Motor Kits Kit #51205551-501 Motor 1026(1, 2, 4, 6) 120 V 50/60 Kit Part Description Motor Capacitor, Motor 7.5uf Gasket Set (10260S) Kit Instruction Kit #51205551-502 Motor 10263 120 V 50/60 Kit Part Description Motor Capacitor, Motor 11uf - 60 Hz Capacitor, Motor 13uf - 50 Hz Gasket Set (10260S) Kit Instruction Kit #51205551-503 Motor 1026(7, 8, 9) 120 V 50/60 Kit Part Description Motor Capacitor, Motor 14uf Gasket Set (10260S) Kit Instruction Kit #51205551-504 Motor 1026(1, 2, 4, 6, 7, 8, 9) 240 V 50/60 Kit Part Description Motor Capacitor, Motor Capacitor, Motor Gasket Set (10260S) Kit Instruction Kit #51205551-505 Motor 10263 240 V 50/60 Kit Part Description Motor Capacitor, Motor Capacitor, Motor Gasket Set (10260S) Kit Instruction 82 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 8. Replacement/Recommended Spare Parts - Kit #51205551-506 Motor 10265 120 V 50/60 Kit Part Description Motor Capacitor, Motor 11uf - 60 Hz Capacitor, Motor 13uf - 50 Hz Gasket Set (10260S) Kit Instruction Kit #51205551-507 Motor 10265 240 V 50/60 Kit Part Description Motor Capacitor, Motor Capacitor, Motor Gasket Set (10260S) Kit Instruction Idler Gear Kits Kit #51205552-501 Idler Gear 1026(1, 2, 4, 6, 7) Fiber (2) Kit Part Description Idler Gear Assy (Fiber) Gasket Set (10260S) Kit Instruction Kit #51205552-502 Idler Gear 1026(8, 9) Steel (2) Kit Part Description Idler Gear Assy (Steel) Gasket Set (10260S) Kit Instruction Kit #51205552-503 Idler Gear 1026(3, 5) Steel (2) Kit Part Description Idler Gear Assy (Steel) Gasket Set (10260S) Kit Instruction Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 83 10260S Series Actuators ó Non-Contact Sensor Kit Kit #51500523-501 Non-Contact Sensor (NCS) Replacement Part Description Non-Contact Sensor PWA NCS Set Up Gage Screws, #4-40 X 5/16” Gasket Set (10260S) NCS Wire Assy Kit Instruction Replacement PWAs ì Kit #51450802-501 Relay PWA Part Description Relay PWA Gasket Set (10260S) Kit Instruction ö Kit #51500163-501 Main CPU PWA Assembly Part Description Assembly Drawing Screws, #6-32 X ¼” Main CPU PWA Card Guide Assy. Card Guide Middle Screws, #6-32 X 3/8” Screw Tap 6-32 X 3/8” Gasket Set (10260S) Kit Instruction 84 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 8. Replacement/Recommended Spare Parts - ú Kit #51404885-503 Display PWA Assembly Part Description Assembly Drawing Top Cover Cable Ties Display/keypad Cable Display PWA Keypad Support Plate, Keypad Display Lens Display Overlay Transformer Screws #4-40 X 3/8” Screws #6-32 X 3/8” Sleeve, Keypad Gasket Kit Instruction ÷ Kit #51500166-501 Power Distribution PWA Part Description Power Distribution PWA Gasket Set (10260S) Kit Instruction Relay Upgrade Kit Kit #51450802-502 Relay PWA Upgrade Kit Part Description Relay PWA Replacement Kit Relay Wire Assembly Plug, 3-Position Labels Gasket Set (10260S) Kit Instruction Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 85 10260S Series Actuators ø Transformer Kit Kit #51500457-501 Transformer Kit Part Description Transformer Gasket Set (10260S) Cable Ties Kit Instruction Auto/Manual Switch Kit Kit #51500581-501 Auto/Manual Switch Kit Part Description Auto/Manual Switch/Wire Assy (10260S) Auto/Manual Label Knob Shrink Tubing Gasket Set (10260S) Kit Instruction MOV Assembly Kits Kit #51500671-503 MOV Assembly Kit, 130 Vac Part Description MOV Assembly, 130 Vac Gasket Set (10260S) Kit Instruction Kit #51500671-504 MOV Assembly Kit, 275 Vac Part Description MOV Assembly, 275 Vac Gasket Set (10260S) Kit Instruction 86 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 8. Replacement/Recommended Spare Parts - í Limit/Auxiliary Switch Kits Kit #51205550-501 Switch Kit Part Description Switch Bracket Screws, #10-32 X ½” Lockwasher, #10 Washer (N) #10 Switch Support Bracket Switches Switch Insulator Screw, #4-40 X .75” Lockwasher, #4 Washer (N) #4 Screw, #4-40 X 1.25” Screw, #4-40 X 1.75” Cable Assy, Switch Gasket Set (10260S) Kit Instruction û Cam Kits Kit #51205553-501 Cam Assembly Kit Part Description Bushing, Cam Screw, Soc Set #10-32 X ¼” Locking Nut Washer, Toothed Washer, Cam Spacer, Cam Cam Kit Instruction Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 87 10260S Series Actuators Linkage Parts/Kits Up to 75 lb-ft (100 Nm) Turnbuckle Kit Pipe Kit Overall linkage length, inches (cm) Overall linkage length, inches (cm)* Min. Max. Kit Number Min. Max. Pipe Size Kit Number 12 (30.48) 16 (40.64) 083381 24 (60.96) 72 (182.88) 1 (2.54) 083384 16 (40.64) 20 (50.8) 083382 24 (60.96) 120 (304.8) 1½ (3.81) 083385 20 (50.8) 24 (60.96) 083383 - - - - 150 to 300 lb-ft (200 to 410 Nm) Overall linkage length, inches Overall linkage length, inches * Min. Max. Kit Number Min. Max. Pipe Size Kit Number 12 16 083381 24 28 1” 083384 16 20 083382 24 84 1 ½” 083385 20 24 083383 24 120 2” 083386 12 to 24 inches Rod end, nut and bolt are supplied with the actuator Turnbuckle Kit Customer supplied nut and bolt 1/2"-20 right-hand threads 1/2"-20 left-hand threads 24 to 120 inches Customer supplied nut and bolt Rod end, nut and bolt are supplied with the actuator Pipe Kit 1/2"-20 right-hand threads Custom er supplied pipe* 1/2"-20 left-hand threads * cut to size with standard NPT both ends a/n 23202 Honeywell Actuator Linkage Analysis Software (HAL) Part Number: 51197910-001 Replacement Fuses Wickmann T1: 88 6A 250V 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 9. Troubleshooting - Introduction 9. Troubleshooting Introduction Troubleshooting procedures can be followed when inaccurate or faulty actuator operation is detected. In this section, troubleshooting procedures consist of a few simple flow charts to test for proper function of various actuator components. Component replacement is at the PWA or assembly level. Table 34 indicates some of the observable symptoms of failure that can be identified by noting the faulty actuator operation. Table 34 Observable Symptoms of Failure Symptom Procedure No Actuator current output. Replace CPU Assembly No Actuator slidewire output. Replace CPU Assembly Local display does not light. See Figure 33 Actuator fails one or more power up diagnostics. See Figure 34 Actuator motor does not drive in response to input signal. Perform input calibration. See Figure 33 Actuator motor does not drive to proper position. Perform motor calibration. Non-contact sensor position is not correct. See “Non-Contact Sensor Operation” in Section 5. Auto/Manual Switch does not operate correctly. See Figure 36 Relay(s) does not operate. See Figure 37 Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 89 10260S Series Actuators Troubleshooting Procedures Overview Follow the procedure or flow chart to test for and determine actuator component operation. When using the flow charts for troubleshooting, you may be instructed to go to another flow chart in order to identify the faulty component. Instruction for replacing actuator components can be found either in Section 7, Maintenance or in the kit with the replacement components. Equipment needed You will need the following equipment in order to troubleshoot the symptoms listed in the tables that follow: DC Milliammeter – mA dc Calibration source – Volt, mA, etc. Digital Voltmeter Safety precautions Exercise appropriate safety precautions when troubleshooting the actuator operation. WARNING While the unit is powered, a potentially lethal shock hazard exists inside the case. Do not open the case while the unit is powered. Do not access the terminals while the unit is powered. 90 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 9. Troubleshooting - Troubleshooting Procedures Test for Actuator Operation A Cycle power to actuator. Yes No Does display light up? Move handwheel on actuator 2 or 3 turns. Observe self test. Do all diagnostics pass? RAMTST PASS SEETST PASS CALTST PASS CFGTST PASS Yes Does motor reposition itself? No Yes No E B All LEDs and display segments light? Yes Replace display assembly No Replace display assembly E Figure 33 Test for Actuator Operation Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 91 10260S Series Actuators Power Up Self Test Diagnostics B Cycle power to actuator. Yes Does display light up? No A Observe self test. Yes Yes Yes CALTST PASS? CFGTST PASS? No RAMTST PASS? SEETST PASS? No Check actuator calibration, recalibrate if necessary. No No Replace CPU Assembly. Check actuator configuration (setup), reconfigure if necessary. Cycle power to actuator. If CFGTST fails again, replace CPU assembly. Cycle power to actuator. If CALTST fails again, replace CPU assembly. Yes Do all LEDs and display segments light up? Yes No Replace display assembly. E Figure 34 Power Up Diagnostics 92 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 9. Troubleshooting - Troubleshooting Procedures Test Non-Contact Sensor PWA See “Non-Contact Sensor Operation” in Section 5 for procedure in testing NCS PWA output. Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 93 10260S Series Actuators Test Power Distribution PWA D Remove extended cover of actuator. Check Fuses F1 and F2 on the power distribution PWA. Yes No Are fuses good? Replace fuses with same type and rating Yes Is correct voltage present at test points? See below. No Replace Power Distribution PWA. Replace CPU assembly. Figure 35 Test Power Distribution PWA Power Distribution PWA Test Points Connector Voltage J2 Pin 1 to pin 7 5V J3 Pins 1,2 to pins 3, 4, 8 5V Pins 3, 4 to pin 7 9V Pins 5, 6 to pins 7, 8 24 V Pins 1, 2 to pins 7, 8 28 V + or – 3V J1 94 Test Points - Pins 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 9. Troubleshooting - Troubleshooting Procedures Test AUTO - MANUAL DRIVE Switch E Turn switch to Manual CCW setting. Yes Does motor drive in the CCW direction? No Turn switch to Manual CW setting. Does motor drive in the CW direction? Yes No OK CCW MANUAL OFF CW Possible trouble spots a. Auto/Manual switch b. Power Supply PWA. (See D) c. Limit switches d. Motor e. R/C networks f. etc.,Others? OFF A U T O AUTO - MANUAL DRIVE Figure 36 Test AUTO - MANUAL Switch Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 95 10260S Series Actuators Test Relay Function Press SET UP button on keypad to enter Set up mode. Set suspect Relay type to MAN. Set AUTO MANUAL switch to MAN. Place ohmmeter across associated relay contacts at Actuator terminal block. See below. Yes OK Does Relay operate? No Replace Relay PWA or Wire harness from Relay PWA to terminal block. See Relay replacement in Maintenance, Section 7. Figure 37 Test Relay Function Relay 96 Associated Contacts at Terminal Block RELAY1 16 17 18 NC COM NO RELAY2 19 20 21 NC COM NO RELAY3 22 23 24 NC COM NO RELAY4 25 26 27 NC COM NO 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 Appendix A - 10260S Configuration Record Sheet - Appendix A - 10260S Configuration Record Sheet Enter the value or selection for each set up parameter on this sheet so you will have a record of how your actuator is configured. Set Up Group Parameter Setting Default Prompt SET INPUT SET RELAY SET CUROUT IN TYP - Input Actuation Type __________________ 4-20 INP HI – Input High Range Value __________________ 100 INP LO – Input Low Range Value __________________ 0.0 FILTYP – Input Filter Type __________________ NONE LPFILT – Low Pass Filter Time Constant * __________________ 0 Direct – Actuator Rotation __________________ CCW Dband – Input Deadband __________________ 0.5 FsTYP – Failsafe Type __________________ FsVAL – Failsafe Input Value __________________ CHAR – Input Characterization __________________ LD CAL – Restore Calibration Type __________________ RTYP11 – Relay Type __________________ NONE R11VAL – Relay Value __________________ 0 R11 HL – Relay High/Low __________________ RTYP12 – Relay Type __________________ NONE R12VAL – Relay Value __________________ 0 R12 HL – Relay High/Low __________________ RLY1HY – Relay Hysteresis __________________ 0 RTYP21 – Relay Type __________________ NONE R21VAL – Relay Value __________________ 0 R22 HL – Relay High/Low __________________ RTYP22 – Relay Type __________________ RLY2HY – Relay Hysteresis __________________ 0 RTYP31 – Relay Type __________________ NONE R31VAL – Relay Value __________________ 0 R31 HL – Relay High/Low __________________ RTYP32 – Relay Type __________________ RLY3HY – Relay Hysteresis __________________ 0 RTYP41 – Relay Type __________________ NONE R41VAL – Relay Value __________________ 0 R41 HL – Relay High/Low __________________ RTYP42 – Relay Type __________________ RLY4HY – Relay Hysteresis __________________ 0 __________________ 4-20 CUROUT - Output Signal Range LINR Continued on next page ⇒ Release 0 4/01 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 97 10260S Series Actuators Set Up Group Parameter Setting Default COMM – Communications Parameters __________________ DIS ADDRES – Device Address __________________ 1 BAUD – Baud Rate __________________ XmtDLY – Response Delay __________________ NONE DBLBYT – Floating Point Data Format __________________ FP B SET DIGINP DIGINP – Digital Input State __________________ NONE Endpos – End Position Value __________________ SET DISPLA DECMAL – Decimal Point Location __________________ 8888 EUNITS – Units Display __________________ Pcnt UNITS – Display Units __________________ ENG LOCKID – Password Lock __________________ 1026 LOCK – Lock Out __________________ NONE FAILSF – Failsafe __________________ Read Only RAMTST – RAM Test Diagnostic __________________ Read Only SEETST – Serial EEPROM Test Diagnostic __________________ Read Only CFGTST – Configuration Test Diagnostic __________________ Read Only CALTST – Calibration Test Diagnostic __________________ Read Only Prompt SET COMM SET LOCK READ STATUS SET DRVINF SET MAIN VERSON – Firmware Version __________________ Read Only SPEED – Stroke Speed __________________ Factory Set POWER – Power Input Voltage Line Frequency __________________ Factory Set TAG – Tag Name __________________ MFGDAT – Manufacturing Date __________________ Factory Set LREP – Date of Last Repair __________________ Factory Set LCAL – Date of Last Field Calibration __________________ Factory Set REPTYP – Repair Type __________________ Factory Set TEMP – Actuator Temperature __________________ Read Only TEMPHI – High Temperature Limit __________________ Read Only TEMPLO – Low Temperature Limit __________________ Read Only ACST – Accumulated Stall Time __________________ Read Only STARTS – Accumulated Motor Starts __________________ Read Only RLnCNTS – Relay Cycle Counts __________________ Read Only n = 1, 2, 3, or 4 REGNy – Accumulated Motor Starts for regions of motor travel. Read Only __________________ Read Only y = 0 through 9 CAL NCSOUT 98 MANRST – Maintenance Statistic Reset _________________ NCSOUT – Non-contact sensor circuit output _________________ 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Read Only Release 0 4/01 Index - Index A Actuator Rotation, 34, 50 Actuator Set Up, 29 Set up groups, 29 Set up procedure, 31 Actuator Statistics Accumulated motor starts, 48 Motor starts, 48 Relay cycle counts, 48 Reset, 49 Stall time, 48 Temperature limits, 48 Total degrees of motor travel, 48 Applications, 1, 69 Basic flow control, 70 Proportional flow with multiple actuators, 71 Split range, 69, 73 Auto/Manual Switch, 4, 8 Testing, 95 Auto-Manual Switch, 50 Auxiliary Switches, 8, 62 Setting, 62 Terminal connections, 23 Deviation, 37 Relay type, 38 Device Address, 41 Digital Input, 9 Display. See Local Display E Electrical Installation, 22 End-of-travel limit switch. See Limit Switches Exiting Set Up mode, 29 F Failsafe, 34 Failsafe Input Value, 34 Feedback, 9 Field Reversible Actuator Rotation, 5 Fuses, 8 Replacement, 77 G Gear Train, 4, 7 H B HAL Software, 5, 88 Hysteresis, 36 Baud Rate, 41 C Calibration, 51 Set up, 52 Calibration Values Restore, 35 CE Wiring, 24 Change Password LOCKID parameter, 44 Communications, 10 Floating point data transfer, 41 Configuration Tips, 29 Connections Output, 25 Slidewire emulation, 25 Crank Arms, 20 Customer Connections, 5, 22 CW and CCW Direction. See Actuator Rotation D Deadband, 34 Decimal Point Location, 42 Release 0 4/01 I, J Input Calibration, 53 Input Characterization, 34 Input Filters, 33 Input High Range, 33 Input Low Range, 33 Input Set Up Group, 33 Inputs, 9, 33 Installation Considerations, 14 K Keypad, 4, 10, 27 Description, 28 L LEDs on Local Display, 28 Limit Switches, 8, 23, 59 Setting, 59 Teminal connections, 23 Linkage Kits, 5, 88 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual 99 Index Linkage Set-up, 17 Constant torque, 17 Crank arms, 20 Pipe linkage, 19 Turnbuckle linkage, 19 Variable torque, 18 Local Display, 10, 27 Description, 27 LEDs description, 28 Operating displays, 66 Set up, 42 LOCK parameter, 29, 31 Lubrication Main (Worm) gear, 75 Spur gear, 75 R Regions of Motor Travel, 68 REGN parameter, 48 Relay Function Testing, 96 Relay PWA Replacement, 78 Relay Type, 36, 37 Relays, 8 Terminal connections, 23 Remote Setpoint Operation, 67 Replacement and Spare Parts Kits, 82 Restore Factory Calibration Values, 35 S M Main Gear Lubrication, 75 Mains Supply, 8 Mechanical Installation, 17 Modbus communications, 41, 67 Motor, 5, 8 Motor Calibration, 54 Motor Speed, 46 Motor Stall, 66 Motor Starts, 37 Relay type, 40 Mounting, 5, 14 Dimension drawings, 14 N Non-contact Position Sensing, 2 Non-Contact Sensor, 2, 75 Checking, 93 Operation, 67 Non-Contact Sensor Output Calibration, 56 O Output Calibration, 55 Output Torque, 7 Output Type, 40 Outputs, 40 T, U, V P, Q Password, 35, 48 (LOCKID), 43 Change, 44 Position Range Relay type, 38 Power Supply PWA Checking, 94 Projecting Scale Option, 21 Pushbuttons Description, 28 100 Scrolling through Set Up Groups, 29 Self-test Diagnostics, 45, 65, 92 Set Up Groups Communications, 41 Current out, 40 Digital input, 42 Display, 42 Drive, 46 Input, 33 Maintenance, 48 Read status, 45 Relays, 36 Short Stroke Motor calibration, 54 Slidewire Emulation, 3, 9, 25 Smart Electronics, 4 Display and Keypad PWA, 4 Enhanced electronics PWA, 4 Power supply PWA, 4 Relay PWA, 4 Split Range, 69 Spur Gear Lubrication, 75 Stall, 66 Start Up Checklist, 65 Stroke Speed, 46 Tag Name, 47 TAG parameter, 46 Terminal Connections, 23 Torque Settings, 8 Total Degrees of Motor Travel TOTDEG parameter, 48 Troubleshooting, 89 Equipment, 90 W, X, Y, Z Warranty, 5 10260S HercuLine® Actuator Installation, Operation and Maintenance Manual Release 0 4/01 HSM8 HONEYWELL SERVICE CENTERS ARGENTINA BULGARIA GERMANY HONEYWELL EOOD 14, Iskarsko Chausse POB 79 BG- 1592 Sofia BULGARIA Tel : 359-791512/ 794027/ 792198 HONEYWELL AG Kaiserleistrasse 39 D-63067 OFFENBACH GERMANY Tel. : 49 69 80 640 CANADA HUNGARY HONEYWELL LIMITED THE HONEYWELL CENTRE 529 Mc Nicoll Avenue M2H 2C9 NORTH YORK, ONTARIO CANADA Tel. : 416 502 5200 HONEYWELL Kft Gogol u 13 H-1133 BUDAPEST HUNGARY Tel. : 36 1 451 43 00 AUSTRALIA CZECH REPUBLIC ICELAND HONEYWELL LIMITED 5 Thomas Holt Drive North Ryde Sydney NSW AUSTRALIA 2113 Tel. : 61 2 353 7000 HONEYWELL, Spol.s.r.o. 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Key Features
- Precision engineered
- Accurate positioning
- Low maintenance
- Non-contact position sensing
- Slidewire emulation
- Enhanced electronics
- Self-locking/releasing gear train
- Manual operation
- All position mounting
- Field reversible