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Related Manuals for Pepperl+Fuchs PS1000-A6-24.10.R
Summary of Contents for Pepperl+Fuchs PS1000-A6-24.10.R
- Page 1 PS1000-A6-24.10.R Power Supply Technical Information ISO9001...
- Page 2 Phone: +49 621 776 - 0 E-mail: info@de.pepperl-fuchs.com North American Headquarters Pepperl+Fuchs Inc. 1600 Enterprise Parkway Twinsburg, Ohio 44087 Phone: +1 330 425-3555 E-mail: sales@us.pepperl-fuchs.com Asia Headquarters Pepperl+Fuchs Pte. Ltd. P+F Building 18 Ayer Rajah Crescent Singapore 139942 Phone: +65 6779-9091 E-mail: sales@sg.pepperl-fuchs.com https://www.pepperl-fuchs.com...
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Page 3: Table Of Contents
Power Supply PS1000-A6-24.10.R Contents Introduction ............5 Terminology and Abbreviations. - Page 4 Power Supply PS1000-A6-24.10.R Contents...
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Page 5: Introduction
Power Supply PS1000-A6-24.10.R Introduction Introduction The information given in this document is correct to the best of our knowledge and experience at the time of publication. If not expressly agreed otherwise, this information does not represent a warranty in the legal sense of the word. As the state of our knowledge and experience is constantly changing, the information in this data sheet is subject to revision. -
Page 6: Terminology And Abbreviations
Power Supply PS1000-A6-24.10.R Terminology and Abbreviations Terminology and Abbreviations PE and symbol PE is the abbreviation for Protective Earth and has the same meaning as the symbol Earth, Ground This document uses the term earth which is the same as the U.S. term ground. - Page 7 Power Supply PS1000-A6-24.10.R Terminology and Abbreviations PS1000-A6- PS1000-A6- 24.10.R 24.10.R Figure 2.2 1+1 Redundancy...
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Page 8: Intended Use
Power Supply PS1000-A6-24.10.R Intended Use Intended Use This device is designed for installation in an enclosure and is intended for commercial use, such as in industrial control, process control, monitoring, measurement, Audio/Video, information or communication equipment or the like. Do not use this device in equipment, where malfunctioning may cause severe personal injury or threaten human life without additional appropriate safety devices, that are suited for the application. -
Page 9: Installation Instructions
Power Supply PS1000-A6-24.10.R Installation Instructions Installation Instructions Warning! Risk of electrical shock, fire, personal injury or death. • Turn power off before working on the device. Protect against inadvertent re-powering. • Do not open, modify or repair the device. •... - Page 10 Power Supply PS1000-A6-24.10.R Installation Instructions The device is designed for convection cooling and does not require an external fan. Do not obstruct airflow and do not cover ventilation grid! The device is designed for altitudes up to 5000m (16400ft). Above 2000m (6560ft) a reduction in output current and over voltage category is required.
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Page 11: Ac Input
Power Supply PS1000-A6-24.10.R AC Input AC Input The device is suitable to be supplied from TN-, TT- or IT-mains networks with AC voltage. For suitable DC supply voltages see chapter 6. AC input nom. AC 100-240V AC input range 85-264Vac... - Page 12 Power Supply PS1000-A6-24.10.R AC Input Figure 5.2 Turn-on behavior, definitions Figure 5.3 Input current vs. output current at 24V output voltage Figure 5.4 Power factor vs. output current at 24V output voltage...
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Page 13: Dc Input
Power Supply PS1000-A6-24.10.R DC Input DC Input DC input nom. DC 110-150V ±20% DC input range 88-180Vdc Continuous operation DC input current typ. 2.35A At 110Vdc, 24V, 10A Allowed voltage (+) or (-) max. 360Vdc Continuous, according to IEC 60664-1... -
Page 14: Input Inrush Current
Power Supply PS1000-A6-24.10.R Input Inrush Current Input Inrush Current An active inrush limitation circuit (NTCs, which are bypassed by a relay contact) limits the input inrush current after turn-on of the input voltage. The charging current into EMI suppression capacitors is disregarded in the first microseconds after switch-on. -
Page 15: Output
Power Supply PS1000-A6-24.10.R Output Output The output provides a SELV/PELV/ES1 rated voltage, which is galvanically isolated from the input voltage. The output of the devices includes a decoupling MOSFET for building 1+1 or N+1 redundant power supply systems. The device is designed to supply any kind of loads, including capacitive and inductive loads. - Page 16 Power Supply PS1000-A6-24.10.R Output Figure 8.1 Output voltage vs. output current, typ. Figure 8.2 Dynamic output current capability, typ. Figure 8.3 Short-circuit on output, Hiccup mode, typ.
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Page 17: Hold-Up Time
Power Supply PS1000-A6-24.10.R Hold-Up Time Hold-Up Time AC 100V AC 120V AC 230V Hold-up Time Typ. 73ms 73ms 73ms At 24V, 5A, see Figure 9.1 Min. 55ms 55ms 55ms At 24V, 5A, see Figure 9.1 Typ. 37ms 37ms 37ms At 24V, 10A, see Figure 9.1 Min. -
Page 18: Dc-Ok Relay Contact
Power Supply PS1000-A6-24.10.R DC-OK Relay Contact DC-OK Relay Contact This feature monitors the output voltage on the output terminals of a running power supply. Contact closes As soon as the output voltage reaches typ. 90% of the adjusted output voltage level. -
Page 19: Efficiency And Power Losses
Power Supply PS1000-A6-24.10.R Efficiency and Power Losses Efficiency and Power Losses AC 100V AC 120V AC 230V Efficiency typ. 92.2% 94.7% At 24V, 10A typ. 91.9% 92.8% 94.6% At 24V, 12A (Power Boost) Average efficiency typ. 91.8% 92.4% 93.9% 25% at 2.5A, 25% at 5A, 25% at 7.5A. - Page 20 Power Supply PS1000-A6-24.10.R Efficiency and Power Losses Figure 11.3 Efficiency vs. input voltage at 24V, 10A, typ. Figure 11.4 Losses vs. input voltage at 24V, 10A, typ.
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Page 21: Lifetime Expectancy
Power Supply PS1000-A6-24.10.R Lifetime Expectancy Lifetime Expectancy The Lifetime expectancy shown in the table indicates the minimum operating hours (service life) and is determined by the lifetime expectancy of the built-in electrolytic capacitors. Lifetime expectancy is specified in operational hours and is calculated according to the capacitor's manufacturer specification. -
Page 22: Mtbf
Power Supply PS1000-A6-24.10.R MTBF MTBF MTBF stands for Mean Time Between Failure, which is calculated according to statistical device failures, and indicates reliability of a device. It is the statistical representation of the likelihood of a unit to fail and does not necessarily represent the life of a product. -
Page 23: Functional Diagram
Power Supply PS1000-A6-24.10.R Functional Diagram Functional Diagram Figure 14.1 Functional diagram... -
Page 24: Terminals And Wiring
Power Supply PS1000-A6-24.10.R Terminals and Wiring Terminals and Wiring The terminals are IP20 finger safe constructed and suitable for field- and factory wiring. Input Output DC-OK-Signal Plug connector with Plug connector with Plug connector with Type screw terminals screw t e r m i n al s... -
Page 25: Replacing The Units While The System Is Running
Power Supply PS1000-A6-24.10.R Replacing the Units while the System is Running Replacing the Units while the System is Running Figure 16.1 Replacing the power supply or redundancy module while the system is running Replacing the Units Switch-off circuit breaker (1a). -
Page 26: Front Side And User Elements
Power Supply PS1000-A6-24.10.R Front Side and User Elements Front Side and User Elements Output Terminals (+) Positive output (–) Negative output (return) Output Voltage Potentiometer See chapter 26.2. OUTPUT DC 24V 10A DC-OK LED (green) On, when the output voltage is above 22V. -
Page 27: Emc
Power Supply PS1000-A6-24.10.R The EMC behavior of the device is designed for applications in industrial environment as well as in residential, commercial and light industry environments. EMC Immunity According to generic standards: EN 61000-6-1 and EN 61000-6-2 Electrostatic discharge EN 61000-4-2... -
Page 28: Environment
Power Supply PS1000-A6-24.10.R Environment Environment Operational temperature -25°C to +70°C (-13°F to 158°F) Storage temperature -40°C to +85°C (-40°F to 185°F) For storage and transportation Output de-rating 0.13A/°C Between +45°C and +60°C (113°F to 140°F) 0.25A/°C Between +60°C and +70°C (140°F to 158°F) 0.63A/1000m or 5°C/1000m... - Page 29 Power Supply PS1000-A6-24.10.R Environment Figure 19.2 Output current vs. altitude...
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Page 30: Protection Features
Power Supply PS1000-A6-24.10.R Protection Features Protection Features Output over-voltage protection typ. 30.5Vdc max. 32Vdc Degree of protection IP 20 EN/IEC 60529 Penetration protection >4mm E.g. screws, small parts Over-temperature protection Included Output shut-down with automatic restart. Input transient protection For protection values see chapter 18 (EMC). -
Page 31: Safety Features
Power Supply PS1000-A6-24.10.R Safety Features Safety Features Class of protection According to IEC 61140 Isolation resistance > 500MOhm At delivered condition between input and output, measured with 500Vdc > 500MOhm At delivered condition between input and PE, measured with 500Vdc >... -
Page 32: Dielectric Strength
Power Supply PS1000-A6-24.10.R Dielectric Strength Dielectric Strength The output voltage is floating and has no ohmic connection to the ground. Type and routine tests are conducted by the manufacturer. Field tests may be conducted in the field using the appropriate test equipment which applies the voltage with a slow ramp (2s up and 2s down). -
Page 33: Approvals And Fulfilled Standards
Power Supply PS1000-A6-24.10.R Approvals And Fulfilled Standards Approvals And Fulfilled Standards UL 61010 UL Certificate Listed equipment for category NMTR - UL 61010-2-201 Electrical Equipment for Measurement, Control and Laboratory Use - Particular requirements for control equipment Applicable for US and Canada... -
Page 34: Regulatory Compliance
Power Supply PS1000-A6-24.10.R Regulatory Compliance Regulatory Compliance EU Declaration of The CE mark indicates conformance with the European Conformity • ATEX directive • EMC directive • Low-voltage directive (LVD) • RoHS directive WEEE Directive Manufacturer's Statement EU-Regulation on Waste Electrical and Electronic Equipment Registered in Germany as business to business (B2B) products. -
Page 35: Physical Dimensions And Weight
Power Supply PS1000-A6-24.10.R Physical Dimensions and Weight Physical Dimensions and Weight Width 39mm, 1.54 inch Height 124mm, 4.88 inch, without plug connectors Depth 117mm, 4.61 inch, without plug connectors The DIN mounting rail height must be added to the unit depth to calculate the total required installation depth. -
Page 36: Application Notes
Power Supply PS1000-A6-24.10.R Application Notes Application Notes 26.1 Peak Current Capability The device can deliver peak currents (up to several milliseconds) which are higher than the specified short term currents. This helps to start current demanding loads. Solenoids, contactors and pneumatic modules often have a steady state coil and a pick-up coil. - Page 37 Power Supply PS1000-A6-24.10.R Application Notes Figure 26.3 30A peak current for 12ms , typ. (3x the nominal current) Note The DC-OK relay triggers when the voltage dips more than 10% for longer than 1ms. Peak current voltage dips Typically from 24V to 17V at 20A for 50ms, resistive load Typically from 24V to 19V at 50A for 2ms, resistive load Typically from 24V to 15.5V at 50A for 5ms, resistive load...
- Page 38 Power Supply PS1000-A6-24.10.R Application Notes 26.2 Adjusting the Output Voltage A voltage adjustment potentiometer can be found behind the flap on the front of the unit, see chapter 18. However, it is not recommended to change the output voltage since load sharing between power supplies connected in parallel can only be achieved by a precise setting of the output voltages.
- Page 39 Power Supply PS1000-A6-24.10.R Application Notes 26.3 Output Circuit Breakers Standard miniature circuit breakers (MCBs or UL 1077 circuit breakers) are commonly used for AC-supply systems and may also be used on 24V branches. MCBs are designed to protect wires and circuits. If the ampere value and the characteristics of the MCB are adapted to the wire size that is used, the wiring is considered as thermally safe regardless of whether the MCB opens or not.
- Page 40 Power Supply PS1000-A6-24.10.R Application Notes 26.4 Parallel Use to Increase Output Power Figure 26.6 Output current vs. ambient temp. for two paralleled units Figure 26.7 Output current vs. ambient temp. for three paralleled units...
- Page 41 Power Supply PS1000-A6-24.10.R Application Notes 26.5 Parallel Use for Redundancy Power supplies can be paralleled for redundancy to gain higher system availability. The unit is already equipped with a MOSFET as decoupling device on the output to avoid, that a faulty unit becomes a load for the other power supplies and the output voltage cannot be maintained any more.
- Page 42 Power Supply PS1000-A6-24.10.R Application Notes 26.6 Series Operation Power supplies of the same type can be connected in series for higher output voltages. It is possible to connect as many units in series as needed, providing the sum of the output voltage does not exceed 150Vdc.
- Page 43 Power Supply PS1000-A6-24.10.R Application Notes 26.8 Two Phases Operation The power supply can also be used on two-phases of a three-phase-system. Such a phase-to-phase connection is allowed as long as the supplying voltage +10% is below 240V The maximum allowed voltage between a Phase and the PE must be below 300Vac.
- Page 44 Power Supply PS1000-A6-24.10.R Application Notes 26.10 Mounting Orientations Mounting orientations other than all terminals on the bottom require a reduction in continuous output power or a limitation in the maximum allowed ambient temperature. The amount of reduction influences the lifetime expectancy of the power supply.
- Page 45 Power Supply PS1000-A6-24.10.R Application Notes Figure 26.15 Mounting orientation D (horizontal cw) Figure 26.16 Mounting orientation E (horizontal ccw)
- Page 46 Pepperl+Fuchs Quality Download our latest policy here: www.pepperl-fuchs.com/quality www.pepperl-fuchs.com © Pepperl+Fuchs · Subject to modifications Printed in Germany DOCT-7790...