Product Information. RCN 2000 RCN 5000 RCN 8000 Absolute Angle Encoders for Safety-Related Applications
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1 Product Information RCN 2000 RCN 5000 RCN 8000 Absolute Angle Encoders for Safety-Related Applications September 2013
2 RCN 2000 series Absolute angle encoders for safety-related applications Safe absolute position Hollow through shaft 20 mm System accuracy ± 2.5 and ± 5 Shaft coupling with ring nut and catch Shown without ring nut and catch Alternative mounting option with front-end shaft coupling = Bearing of mating shaft = Compressed air inlet = Required mating dimensions = Mark for 0 position ± 5 = Free space for customer = Cable support = Accessory: Ring nut ID = Accessory: Catch ID = 2x positive-locking spring pin, ISO x10 St = When using spring pins, provide additional back-off threads (M3) = Screw penetration 4.5±0.5 mm = Screw penetration 8.5±0.5 mm = Direction of shaft rotation for output signals as per the interface description 2 Product Information RCN 2000/5000/8000 9/2013
3 Absolute RCN 2510 RCN 2310 Measuring standard DIADUR circular scale with absolute and incremental track ( lines) System accuracy ± 2.5 ± 5 Position error per signal period ± 0.3 ± 0.4 Functional safety For applications up to SIL 2 according to EN (further basis for testing: EN ) Category 3, PL d according to EN ISO :2008 PFH Safe position 1) Mounting option I: 2) Encoder: ± 0.77 (safety-related measuring step: approx ) Mounting option II: 2) Encoder: ± 0.29 (safety-related measuring step: approx ) Interface EnDat 2.2 Ordering designation EnDat 22 Positions per revolution (28 bits) (26 bits) Electrically permissible speed Clock frequency Calculation time t cal Electrical connection Cable length Voltage supply Power consumption 3) (maximum) Current consumption (typical) Shaft min 1 for continuous position value 16 MHz 5 µs Separate adapter cable connectable to encoder via quick disconnect 100 m (with HEIDENHAIN cable), clock frequency 8 MHz 3.6 to 14 V DC 3.6 V: 1.1 W 14 V: 1.3 W 5 V: 140 ma (without load) Hollow through shaft D = 20 mm Mechanically permissible speed min 1 Torque (friction) 3.3 Nm (typical starting torque: 0.08 Nm at 20 C) Moment of inertia Rotor (hollow shaft): kgm 2 Stator (housing/flange): kgm 2 Axial motion of measured shaft Natural frequency Vibration 55 to Hz Shock 6 ms ± 0.3 mm Hz 200 m/s 2 (EN ) 200 m/s 2 (EN ) Operating temperature 0 C to 50 C 0 C to 60 C Protection EN IP 64 Weight 1.0 kg 1) Further tolerances may occur in subsequent electronics after position value comparison (contact manufacturer of subsequent electronics). 2) Mechanical connection: Fault exclusions for loosening of the housing/flange and hollow shaft (pages 10/11) 3) See General electrical information in the Interfaces for HEIDENHAIN Encoders brochure Product Information RCN 2000/5000/8000 9/2013 3
4 RCN 5000 series Absolute angle encoders for safety-related applications Safe absolute position Hollow through shaft 35 mm System accuracy ± 2.5 and ± 5 Shaft coupling with ring nut and catch Shown without ring nut and catch Alternative mounting option with front-end shaft coupling = Bearing of mating shaft = Compressed air inlet = Required mating dimensions = Mark for 0 position ± 5 = Free space for customer = Cable support = Accessory: Ring nut ID = Accessory: Catch ID = 2x positive-locking spring pin, ISO x10 St = When using spring pins, provide additional back-off threads (M3) = Screw penetration 4.5±0.5 mm = Screw penetration 8±0.5 mm = Direction of shaft rotation for output signals as per the interface description 4 Product Information RCN 2000/5000/8000 9/2013
5 Absolute RCN 5510 RCN 5310 Measuring standard DIADUR circular scale with absolute and incremental track ( lines) System accuracy ± 2.5 ± 5 Position error per signal period ± 0.3 ± 0.4 Functional safety For applications up to SIL 2 according to EN (further basis for testing: EN ) Category 3, PL d according to EN ISO :2008 PFH Safe position 1) Mounting option I: 2) Encoder: ± 0.57 (safety-related measuring step: approx ) Mounting option II: 2) Encoder: ± 0.28 (safety-related measuring step: approx ) Interface EnDat 2.2 Ordering designation EnDat 22 Positions per revolution (28 bits) (26 bits) Electrically permissible speed Clock frequency Calculation time t cal Electrical connection Cable length Voltage supply Power consumption 3) (maximum) Current consumption (typical) Shaft min 1 for continuous position value 16 MHz 5 µs Separate adapter cable connectable to encoder via quick disconnect 100 m (with HEIDENHAIN cable), clock frequency 8 MHz 3.6 to 14 V DC 3.6 V: 1.1 W 14 V: 1.3 W 5 V: 140 ma (without load) Hollow through shaft D = 35 mm Mechanically permissible speed min 1 Torque (friction) 3.38 Nm (typical starting torque: 0.2 Nm at 20 C) Moment of inertia Rotor (hollow shaft): kgm 2 Stator (housing/flange): kgm 2 Axial motion of measured shaft Natural frequency Vibration 55 to Hz Shock 6 ms ± 0.3 mm Hz 200 m/s 2 (EN ) 200 m/s 2 (EN ) Operating temperature 0 C to 50 C 0 C to 60 C Protection EN IP 64 Weight 0.9 kg 1) Further tolerances may occur in subsequent electronics after position value comparison (contact manufacturer of subsequent electronics). 2) Mechanical connection: Fault exclusions for loosening of the housing/flange and hollow shaft (pages 10/11) 3) See General electrical information in the Interfaces for HEIDENHAIN Encoders brochure Product Information RCN 2000/5000/8000 9/2013 5
6 RCN 8000 series Absolute angle encoders for safety-related applications Safe absolute position Hollow through shaft 60 mm System accuracy ± 1 and ± 2 Shaft coupling with ring nut and catch Alternative mounting option with front-end shaft coupling Shown without ring nut and catch = Bearing of mating shaft = Compressed air inlet = Required mating dimensions = Mark for 0 position ± 5 = Cable support = Free space for customer = Shown rotated by 45 = Accessory: Ring nut ID = Accessory: Catch ID = 2x positive-locking spring pin, ISO x10 St = When using spring pins, provide additional back-off threads (M4) = Screw penetration 5.5±0.5 mm = Screw penetration 11±0.5 mm = Direction of shaft rotation for output signals as per the interface description 6 Product Information RCN 2000/5000/8000 9/2013
7 Absolute RCN 8510 RCN 8310 Measuring standard DIADUR circular scale with absolute and incremental track ( lines) System accuracy ± 1 ± 2 Position error per signal period ± 0.15 ± 0.2 Functional safety For applications up to SIL 2 according to EN (further basis for testing: EN ) Category 3, PL d according to EN ISO :2008 PFH Safe position 1) Mounting option I: 2) Encoder: ± 0.26 (safety-related measuring step: approx ) Mounting option II: 2) Encoder: ± 0.13 (safety-related measuring step: approx ) Interface EnDat 2.2 Ordering designation EnDat 22 Positions per revolution Electrically permissible speed Clock frequency Calculation time t cal Electrical connection Cable length Voltage supply Power consumption 3) (maximum) Current consumption (typical) Shaft (29 bits) min 1 for continuous position value 16 MHz 5 µs Separate adapter cable connectable to encoder via quick disconnect 100 m (with HEIDENHAIN cable), clock frequency 8 MHz 3.6 to 14 V DC 3.6 V: 1.1 W 14 V: 1.3 W 5 V: 140 ma (without load) Hollow through shaft D = 60 mm Mechanically permissible speed 500 min 1 Torque (friction) 4.05 Nm (typical starting torque: 0.7 Nm at 20 C) Moment of inertia Rotor (hollow shaft): kgm 2 Stator (housing/flange): kgm 2 Axial motion of measured shaft Natural frequency Vibration 55 to Hz Shock 6 ms ± 0.3 mm 900 Hz 200 m/s 2 (EN ) 200 m/s 2 (EN ) Operating temperature 0 C to 50 C Protection EN IP 64 Weight 2.8 kg 1) Further tolerances may occur in subsequent electronics after position value comparison (contact manufacturer of subsequent electronics). 2) Mechanical connection: Fault exclusions for loosening of the housing/flange and hollow shaft (pages 10/11) 3) See General electrical information in the Interfaces for HEIDENHAIN Encoders brochure Product Information RCN 2000/5000/8000 9/2013 7
8 RCN 8000 series Absolute angle encoders for safety-related applications Safe absolute position Hollow through shaft 100 mm System accuracy ± 1 and ± 2 Shaft coupling with ring nut and catch Alternative mounting option with front-end shaft coupling Shown without ring nut and catch = Bearing of mating shaft = Compressed air inlet = Required mating dimensions = Mark for 0 position ± 5 = Cable support = Free space for customer = Shown rotated by 45 = Accessory: Ring nut ID = Accessory: Catch ID = 2x positive-locking spring pin, ISO x10 St = When using spring pins, provide additional back-off threads (M4) = Screw penetration 5.5±0.5 mm = Screw penetration 11±0.5 mm = Direction of shaft rotation for output signals as per the interface description 8 Product Information RCN 2000/5000/8000 9/2013
9 Absolute RCN 8510 RCN 8310 Measuring standard DIADUR circular scale with absolute and incremental track ( lines) System accuracy ± 1 ± 2 Position error per signal period ± 0.15 ± 0.2 Functional safety For applications up to SIL 2 according to EN (further basis for testing: EN ) Category 3, PL d according to EN ISO :2008 PFH Safe position 1) Mounting option I: 2) Encoder: ± 0.21 (safety-related measuring step: approx ) Mounting option II: 2) Encoder: ± 0.13 (safety-related measuring step: approx ) Interface EnDat 2.2 Ordering designation EnDat 22 Positions per revolution Electrically permissible speed Clock frequency Calculation time t cal Electrical connection Cable length Voltage supply Power consumption 3) (maximum) Current consumption (typical) Shaft (29 bits) min 1 for continuous position value 16 MHz 5 µs Separate adapter cable connectable to encoder via quick disconnect 100 m (with HEIDENHAIN cable), clock frequency 8 MHz 3.6 to 14 V DC 3.6 V: 1.1 W 14 V: 1.3 W 5 V: 140 ma (without load) Hollow through shaft D = 100 mm Mechanically permissible speed 500 min 1 Torque (friction) 4.5 Nm (typical starting torque: 1.0 Nm at 20 C) Moment of inertia Rotor (hollow shaft): kgm 2 Stator (housing/flange): kgm 2 Axial motion of measured shaft Natural frequency Vibration 55 to Hz Shock 6 ms ± 0.3 mm 900 Hz 200 m/s 2 (EN ) 200 m/s 2 (EN ) Operating temperature 0 C to 50 C Protection EN IP 64 Weight 2.6 kg 1) Further tolerances may occur in subsequent electronics after position value comparison (contact manufacturer of subsequent electronics). 2) Mechanical connection: Fault exclusions for loosening of the housing/flange and hollow shaft (pages 10/11) 3) See General electrical information in the Interfaces for HEIDENHAIN Encoders brochure Product Information RCN 2000/5000/8000 9/2013 9
10 Mounting Mounting With RCN angle encoders, the shaft can be coupled by mounting with a ring nut (mounting option I) or alternatively at the front-end with screws and spring pins (mounting option II). For mounting option I, a catch must be used in addition to the ring nut. Catch for RCN 2x10: ID Catch for RCN 5x10: ID Catch for RCN 8x10: Hollow shaft Ø 60 mm: ID Hollow shaft Ø 100 mm: ID Materials to be used The machine shaft and the fastening components must be made of steel. The material must have a coefficient of expansion of = (10 to 16) 10 6 K 1. Additionally, the material must meet the following specifications: Hollow-shaft connection R m 650 N/mm 2 R p N/mm 2 Housing connection R p N/mm 2 Permissible angular acceleration The following value apply for angular acceleration, depending on its application and mounting configuration: Permissible angular acceleration of the rotor for application through hollow shaft and shaft coupling with catch and ring nut: RCN 2000 series: rad/s 2 RCN 5000 series: rad/s 2 RCN 8000 series: Ø 60 mm: rad/s 2 Ø 100 mm: rad/s 2 Permissible angular acceleration of the rotor for application through hollow shaft and front-end shaft coupling with fastening screws and spring pins: RCN 2000 series: rad/s 2 RCN 5000 series: rad/s 2 RCN 8000 series: Ø 60 mm: rad/s 2 Ø 100 mm: rad/s 2 Permissible angular acceleration of the stator for application through flange/ housing: RCN 2000 series: rad/s 2 RCN 5000 series: rad/s 2 RCN 8000 series: Ø 60 mm: rad/s 2 Ø 100 mm: rad/s 2 Mounting option I: Shaft coupling with ring nut and catch Mounting option II: Front-end shaft coupling with screws and spring pins Catch Catch Ring nut 2. 2x ISO x10 St x D (mm) Moment of inertia of ring nut and catch RCN kgm 2 RCN kgm 2 RCN 8000 ( 60 mm) kgm 2 RCN 8000 ( 100 mm) kgm 2 10 Product Information RCN 2000/5000/8000 9/2013
11 Functional safety Safe position Mechanical shaft coupling 1) Fastening 2) RCN 2000/RCN 5000 series for safety-related applications Rotor (hollow shaft) RCN 2000: ± 0.77 RCN 5000: ± 0.57 RCN 2000: ± 0.29 RCN 5000: ± 0.28 RCN 8000 series for safety-related applications Rotor (hollow shaft) Hollow shaft 60 mm: ± 0.26 Hollow shaft 100 mm: ± 0.21 Hollow shaft 60 mm: ± 0.13 Hollow shaft 100 mm: ± 0.13 Mounting option I (shaft coupling with ring nut) Mounting option II (front-end shaft coupling) Mounting option I (shaft coupling with ring nut) Mounting option II (front-end shaft coupling) Ring nut and catch M3 ISO mounting screws and ISO x10 St spring pins Ring nut and catch M4 ISO mounting screws and ISO x10 St spring pins 1) Fault exclusions are given only for the mounting options explicitly stated 2) A suitable anti-rotation lock is to be used for the screw connections (for mounting or service) With its RCN 2000/5000/8000 series absolute angle encoders, HEIDENHAIN offers the ideal solution for position acquisition for rotational axes in safety-related applications. The encoders can be operated as single-encoder systems in conjunction with a safe control in applications with control category SIL-2 (according to EN ) or performance level d (of EN ISO ). Reliable transmission of the position is based on two independently generated absolute position values and on error bits. These are then provided to the safe control. The functions of the encoder can be used for numerous safety tasks in the complete system according to EN (see table). Unlike incremental encoders, the absolute RCN 2000/5000/8000 series linear encoders provide a safe absolute position value e.g. immediately after switch-on or a power failure. Their purely serial data transmission over the EnDat bidirectional interface also offers other advantages, such as greater reliability, improved accuracy, diagnostic capabilities, reduced costs through simpler connection technology, and other benefits. In addition to the data interface, the mechanical connection of the encoder to the motor is also relevant to safety. Table 16 of the standard for electrical drives, EN , defines the loss or loosening of the mechanical connection between the encoder and drive as a fault that requires consideration. Since it cannot be Safe encoder Electrical connection Mechanical connection guaranteed that the control will detect such errors, in many cases the possibility of the mechanical connection becoming loose or lost must be eliminated. There are possibilities for attaching the RCN 2000/5000/8000 series that rule out the possibility of such faults. Safe control Safety-related position measuring system Safety-related position measuring system with mechanical connection and electrical interface Product Information RCN 2000/5000/8000 9/
12 Electrical connection EnDat without incremental signals PUR adapter cable [4(2 x 0.14 mm 2 )]; A V = 0.14 mm 2 Complete with M12 coupling (male), 8-pin Complete with 15-pin D-sub connector (female) 4.5 mm 4.5 mm ID xx ID xx PUR connecting cable [(4 x 0.14 mm 2 ) + (4 x 0.34 mm 2 )]; A P = 0.34 mm 2 Complete with connector (female) and coupling (male), 8-pin Complete with 8-pin connector (female) and 15-pin D-sub connector (female) for IK 220 Complete with 8-pin connector (female) and 15-pin D -sub connector (male) for PWM 20 With one 8-pin connector (female) 6 mm 6 mm 6 mm 6 mm ID xx ID xx ID xx ID xx Note for safety-related applications: Only completely assembled HEIDENHAIN cables are qualified. Be sure to exchange connectors or modify cables only after consultation with HEIDENHAIN Traunreut. A P : Cross section of power supply lines Pin layout 8-pin coupling, M12 15-pin D-sub connector Voltage supply Absolute position values U P Sensor U P 0 V Sensor 0 V DATA DATA CLOCK CLOCK Brown/Green Blue White/Green White Gray Pink Violet Yellow Cable shield connected to housing; U P = Power supply voltage Sensor: The sensor line is connected in the encoder with the corresponding power line. Vacant pins or wires must not be used! DR. JOHANNES HEIDENHAIN GmbH Dr.-Johannes-Heidenhain-Straße Traunreut, Germany { info@heidenhain.de Please note the following documents: Adhere to the information in the following documents to ensure the correct and intended operation of the encoder: Catalog: Angle Encoders with Integral Bearing Mounting Instructions: RCN 2310/ RCN 5310/ RCN 8310/8510 (Ø 60 mm) RCN 8310/8510 (Ø 100 mm) Technical Information: Safety-Related Position Measuring Systems For implementation in a control: Specification for Safe Control For catalogs, brochures and Product Information Sheets, visit A 02 9/2013 PDF
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