1111664

TRIO-PS67/1AC/24DC/10/IPD Power supply unit Data sheet 109662_en_00 1 © PHOENIX CONTACT 2021-04-26 Description TRIO POWER - robust and distributed power supplies with IP67 degree of protection The TRIO POWER power supplies with IP67 protection are distinguished by their functionality and robust design. The combination of dustproofness and therefore full touch protection is indicated by the first number of the IP code (IP6x). The second number (IPx7) indicates protection against temporary submersion in water. This means that use in particularly difficult ambient conditions is always ensured. The dynamic boost (1.5 x IN for 5 seconds) safely absorbs starting currents and brief overload situations during operation, and without a dip in the output voltage. On the device side, the power supply is equipped with coded circular connectors. Technical data (short form) Input voltage range Nominal input voltage range Mains buffering Nominal output voltage (UN) Nominal output current (IN) Dynamic Boost (IDyn.Boost) Output power (PN) Output power (PDyn. Boost) Efficiency Residual ripple Features MTBF (IEC 61709, SN 29500) – Startup type tested – – – – – – No danger of mismatching due to color-coded IPD Push-in connectors and coded circular connector Safe operation, thanks to electrically and mechanically extremely robust design Worldwide use, thanks to wide-range input Fixed 24 V DC output voltage Reliable starting of heavy loads, thanks to dynamic boost (1.5 x IN for 5 seconds) Simplified error diagnostics for remote signaling via DCOK signal contact OVP (Over Voltage Protection) limits surge voltages to ≤30 V DC (EN 61131-2) 100 V AC ... 240 V AC 10 % 110 V DC ... 250 V DC ±10 % 100 V AC ... 240 V AC 110 V DC ... 250 V DC > 15 ms (120 V AC) > 15 ms (230 V AC) 24 V DC ±1 % 10 A 15 A (5 s) 240 W 360 W typ. 91 % (120 V AC) typ. 93 % (230 V AC) ≤ 10 mVPP > 1800000 h (25 °C) > 1000000 h (40 °C) > 480000 h (60 °C) Ambient temperature (operation) -25 °C ... 70 °C (Derating >60°C: 2.5 %/K) Dimensions W/H/D 136 mm / 292 mm / 53 mm Weight Make sure you always use the latest documentation. It can be downloaded from the product at phoenixcontact.net/products. -25 °C 1.5 kg TRIO-PS67/1AC/24DC/10/IPD 2 Table of contents 1 Description ..................................................................................................................................1 3 Ordering data ..............................................................................................................................4 2 4 5 6 7 8 Table of contents......................................................................................................................... 2 Technical data.............................................................................................................................5 Symbols used............................................................................................................................ 11 Safety regulations and installation notes ......................................................................................................11 Design .....................................................................................................................................................................12 7.1 7.2 7.3 7.4 7.5 Rating plate ..................................................................................................................................................12 Device connections and functional elements................................................................................................13 Block diagram...............................................................................................................................................14 Device dimensions .......................................................................................................................................15 Drilling pattern for fixing holes.......................................................................................................................15 8.1 8.2 8.3 8.4 8.5 Heat dissipation ............................................................................................................................................16 Mounting position .........................................................................................................................................16 Installation height..........................................................................................................................................16 Keep-out areas .............................................................................................................................................17 Mounting the power supply unit ....................................................................................................................17 8.5.1 Wall mounting / temporary fixing (mounting aid)................................................................................17 8.5.2 Wall mounting ...................................................................................................................................18 8.5.3 Structural profile ................................................................................................................................18 Removing the power supply unit...................................................................................................................18 Mounting/remove .................................................................................................................................................16 8.6 9 IPD panel feed-through connectors/device-side circular connector ....................................................19 9.1 9.2 9.3 Coding of the IPD panel feed-through connectors/field-side circular connector ...........................................19 Connecting the IPD panel feed-through connectors/field-side circular connector.........................................19 Disconnecting the field-side circular connector ............................................................................................19 10.1 10.2 Primary side connection and fuse protection ................................................................................................20 10.1.1 1AC supply network ..........................................................................................................................20 10.1.2 DC supply network ............................................................................................................................20 Position of the IPD panel feed-through connector (gray) Input AC................................................................20 11.1 11.2 11.3 Protection of the secondary side...................................................................................................................21 Output characteristic curve ...........................................................................................................................21 Position of the IPD panel feed-through connector (black) Output DC ...........................................................21 10 AC input ..................................................................................................................................................................20 11 DC output .................................................................................................................................. 20 109662_en_00 PHOENIX CONTACT 2/22 TRIO-PS67/1AC/24DC/10/IPD 12 Signaling ................................................................................................................................................................. 21 12.1 12.2 12.3 AC OK LED .................................................................................................................................................. 21 DC OK-LED.................................................................................................................................................. 21 Floating signal contact.................................................................................................................................. 21 13 Disposal and recycling ....................................................................................................................................... 22 109662_en_00 PHOENIX CONTACT 3/22 TRIO-PS67/1AC/24DC/10/IPD 3 Ordering data Description Type TRIO POWER primary-switched power supply in IP67 die- TRIO-PS67/1AC/24DC/10/ cast housing, input: 1-phase, output: 24 V DC / 10 A IPD Order No. 1111664 Pcs./Pkt. Accessories Type SACC-M12FS-5PL M Order No. 1424652 Pcs./Pkt. SAC-5P- 1,5-PUR/M12FS 1669822 1 Connector, Universal, 5-position, unshielded, Socket straight M12, Coding: A, Push-in connection, knurl material: Zinc die-cast, nickel-plated, external cable diameter 4 mm ... 8 mm Sensor/actuator cable, 5-position, PUR halogen-free, black-gray RAL 7021, free cable end, on Socket straight M12, coding: A, cable length: 1.5 m 1 1 Our range of accessories is being continually extended, our current range can be found in the download area. 109662_en_00 PHOENIX CONTACT 4/22 TRIO-PS67/1AC/24DC/10/IPD 4 Technical data Input data All technical specifications are nominal values and are based on an ambient temperature of 25°C and 70% relative humidity at 2000 m above sea level. Input voltage range (for DC, connect a suitable fuse) 100 V AC ... 240 V AC 10 % 110 V DC ... 250 V DC ±10 % Switch-on voltage typ. ≥ 95 V DC Nominal input voltage range 100 V AC ... 240 V AC 110 V DC ... 250 V DC Shut-down voltage typ. < 95 V DC Electric strength, max. ≤ 300 V AC (15 s) Network type Star network (TN, TT, IT (PE)) Frequency range (fN) 50 Hz ... 60 Hz ±10 % Current consumption (for nominal values) typ. 2.8 A (100 V AC) 1.2 A (240 V AC) 2.4 A (110 V DC) 1.1 A (250 V DC) Switch-on time 15 ms (120 V AC) > 15 ms (230 V AC) Inrush current integral (I2t) < 0.5 A2s Input fuse internal (device protection) 6.3 A Inrush current limitation after 1 ms typ. 25 A Recommended breaker for input protection 6 A ... 16 A (US/CAN: branch circuit protection 0.9 x UN (UN = 24 V DC) DC OK Contact assignment 13/14 (closed) Signal threshold UOUT > 0.9 x UN (UN = 24 V DC) Maximum contact load Signal connection data Connection method 30 V AC/30 V DC(100 mA ) M12 circular connector Type of locking M12 Number of positions 5 (Plug) Coding A-coded Reliability 230 V AC MTBF (IEC 61709, SN 29500) General data Degree of protection > 1800000 h (25 °C) > 1000000 h (40 °C) > 480000 h (60 °C) IP67 Protection class I Type of housing Aluminum (AlMg3) Weight 1.5 kg Inflammability class in acc. with UL 94 (housing / terminal V0 blocks) Dimensions W / H / D (state of delivery) Power dissipation Maximum power dissipation in no-load condition Power loss nominal load max. 109662_en_00 136 mm / 292 mm / 53 mm 120 V AC 230 V AC < 22 W < 17 W < 10 W 60°C: 2.5 %/K) Ambient temperature (start-up type tested) -25 °C Max. permissible relative humidity (operation) ≤ 100 % (at 25 °C, non-condensing) Ambient temperature (storage/transport) Installation height Vibration (operation) Shock Degree of pollution Climatic class Overvoltage category EN 61010-1 Standards Electrical safety -40 °C ... 85 °C ≤ 4000 m (> 2000 m, Derating: 10 %/1000 m) < 15 Hz, amplitude ±2.5 mm (according to IEC 60068-2-6) 15 Hz ... 150 Hz, 4g, 90 min. 18 ms, 30g, in each space direction (according to IEC 600682-27) 3 3K3 (in acc. with EN 60721) III (≤ 2000 m) IEC 61010-1 (SELV) Safety requirements for electrical equipment for measurement, control, and laboratory use IEC 61010-1 Safe isolation IEC 61558-2-16 Safety extra-low voltage Low-voltage power supplies, DC output Limit values for harmonic currents Degrees of protection provided by enclosures (IP code) Approvals UL IEC 61010-1 (SELV) IEC 61010-2-201 (PELV) EN 61204-3 EN 61000-3-2 EN/IEC 60529 UL/C-UL Listed UL 61010-1 UL/C-UL Listed UL 61010-2-201 Current approvals/permissions for the product can be found in the download area under phoenixcontact.net/products 109662_en_00 PHOENIX CONTACT 8/22 TRIO-PS67/1AC/24DC/10/IPD Electromagnetic compatibility Conformance with EMC Directive 2014/30/EU Noise emission according to EN 61000-6-3 (residential and commercial) and EN 61000-6-4 (industrial) CE basic standard Conducted noise emission EN 55016 Minimum normative requirements Higher requirements in practice (covered) EN 61000-6-4 (Class A) EN 61000-6-3 (Class B) EN 61000-6-4 (Class A) Noise emission EN 55016 Immunity according to EN 61000-6-1 (residential), EN 61000-6-2 (industrial) CE basic standard Electrostatic discharge EN 61000-4-2 Housing contact discharge Electromagnetic HF field EN 61000-4-3 Comments Frequency range Minimum normative requirements of EN 610006-2 (CE) (immunity for industrial environments) Higher requirements in practice (covered) 4 kV (Test Level 2) 6 kV (Test Level 3) Criterion B 80 MHz ... 1 GHz Criterion A 80 MHz ... 1 GHz Test field strength 10 V/m (Test Level 3) 10 V/m (Test Level 3) Test field strength 3 V/m (Test Level 2) 10 V/m (Test Level 3) Test field strength 1 V/m (Test Level 1) 10 V/m (Test Level 3) Input 2 kV (Test Level 3 asymmetrical) 4 kV (Test Level 3 asymmetrical) 1 kV (Test Level 3 asymmetrical) 2 kV (Test Level 3 asymmetrical) 1 kV (Test Level 1 symmetrical) 2 kV (Test Level 1 asymmetrical) 2 kV (Test Level 4 symmetrical) 4 kV (Test Level 4 asymmetrical) Frequency range Frequency range Fast transients (burst) EN 61000-4-4 Comments Output Signal Surge voltage load (surge) EN 61000-4-5 Comments Input Output Signal Comments 109662_en_00 EN 61000-6-3 (Class B) 1.4 GHz ... 2 GHz 2 GHz ... 2.7 GHz Criterion B 2 kV (Test Level 3 asymmetrical) Criterion B 1 GHz ... 2 GHz 2 GHz ... 6 GHz Criterion A 2 kV (Test Level 3 asymmetrical) Criterion A 0.5 kV (Test Level 1 symmetrical) 0.5 kV (Test Level 1 asymmetrical) 1 kV (Test Level 3 symmetrical) 2 kV (Test Level 3 asymmetrical) Criterion B Criterion A 1 kV (Test Level 2 asymmetrical) 1 kV (Test Level 2 asymmetrical) PHOENIX CONTACT 9/22 TRIO-PS67/1AC/24DC/10/IPD Immunity according to EN 61000-6-1 (residential), EN 61000-6-2 (industrial) CE basic standard Conducted interference EN 61000-4-6 Input/output Frequency range Voltage Voltage dips EN 61000-4-11 Input voltage (230 V AC, 50 Hz) Comments Criterion B 0.15 MHz ... 80 MHz 0.15 MHz ... 80 MHz Criterion A Criterion A 10 V (Test Level 3) 10 V (Test Level 3) Voltage dip 40 % , 10 periods 40 % , 10 periods Voltage dip 0 % , 1 period 0 % , 1 period Criterion C Criterion C Criterion B Criterion A Criterion A Criterion A Normal operating behavior within the specified limits. Temporary impairment to operational behavior that is corrected by the device itself. Temporary adverse effects on the operating behavior, which the device corrects automatically or which can be restored by actuating the operating elements. Emitted interference in acc. with EN 61000-6-3 Radio interference voltage in acc. with EN 55011 Emitted radio interference in acc. with EN 55011 109662_en_00 asymmetrical 70 % , 25 periods Comments Criterion C asymmetrical 70 % , 25 periods Comments Criterion A Higher requirements in practice (covered) Voltage dip Comments Key Minimum normative requirements of EN 610006-2 (CE) (immunity for industrial environments) EN 55011 (EN 55022) Class B, area of application: Industry and residential EN 55011 (EN 55022) Class B, area of application: Industry and residential PHOENIX CONTACT 10/22 TRIO-PS67/1AC/24DC/10/IPD 5 Symbols used In this data sheet, symbols are used to draw your attention to important information and potential dangers. WARNING This is the safety alert symbol. It is used to alert you to potential personal injury hazards. Obey all safety measures that follow this symbol to avoid possible personal injuries. There are different categories of personal injury that are indicated by a signal word. WARNING This indicates a hazardous situation which, if not avoided, could result in death or serious injury. CAUTION This indicates a hazardous situation which, if not avoided, could result in minor or moderate injury. NOTE 6 Safety regulations and installation notes Before mounting, starting up or operating the power supply, carefully read through the data sheet. WARNING: Danger to life by electric shock! – Only qualified specialist personnel may mount, start up, and operate the power supply. – Establish connection correctly and ensure protection against electric shock. – It must be possible to switch off the device outside the power supply in accordance with the regulations of EN 61010-1 (e.g., by line protection on the primary side). – The protective conductor connection  for the supply source must be wired to the ground conductor contact  in the field-side circular connector. – Never carry out work when voltage is present. Indication of a required action which if it is not performed may cause damage or malfunction to the device, hardware/software, or surrounding property. This symbol and the accompanying text provide the reader with additional information or refer to detailed sources of information. 109662_en_00 PHOENIX CONTACT 11/22 TRIO-PS67/1AC/24DC/10/IPD 7 Design 7.1 Rating plate In accordance with the German Product Safety Law (ProdSG) it is only permissible to make such products available on the market if they meet certain safety standards. It must be ensured at all times that users are not exposed to hazards. In accordance with ProdSG, every device must therefore be fitted with a rating plate. All relevant information on the safe use of the device must also be included. The power supply device rating plate is located on the front of the housing (as viewed from the front). Figure 1 1 2 3 Phoenix Contact GmbH & Co. KG Flachsmarktstr. 8 32825 Blomberg, Germany 12 11 -25 10 4 Made by Phoenix Contact in China Sno. XXXXXXXXXXXXX D0001 V/C: 9 www.phoenixcontact.com Date: 8 7 5 6 Key No. 1 2 3 4 5 6 7 8 9 10 11 12 109662_en_00 Rating plate information Documentation NOTE – Observe the national safety and accident prevention regulations. – Assembly and electrical installation must correspond to the state of the art. – The die-cast housing and the device-side circular connectors satisfy the requirements of IP67 protection. – Outdoor mounting is allowed. – Avoid an installation location with direct sunlight. – If the ambient temperature at the mounting location is >45°C, prevent direct contact with the power supply. For example, use an additional control cabinet (restricted access location). – Observe the mechanical and thermal limits at the installation location. – Mount the power supply in the normal mounting position (device-side circular connectors below). – Adequate keep-out zones must be ensured for heat emission. – Ensure that the primary-side wiring and secondary-side wiring are the correct size and have sufficient fuse protection. – The connection parameters, e.g., required stripping lengths for the wiring, can be found in the installation information for the respective field-side circular connector. – Use copper cables with an operating temperature ≥105°C (ambient temperature 85°C). – The power supply is approved for connection to TN, TT, and IT (PE) power grids (star networks) with a maximum phase-to-phase voltage of 240 V AC. – The power supply is maintenance-free. Repairs may only be carried out by the manufacturer. The warranty no longer applies if the housing is opened. – The power supply may only be used for its intended use. Designation Identification of the provider QR code as web link to the device documentation Device approvals Device-specific warning notice and designation of device documentation accompanying the product Production site of the Phoenix Contact Group Note on disposal Bar code and serial number for device identification Date of manufacture Designation of device revision Ambient conditions Device connection data Product designation PHOENIX CONTACT 12/22 TRIO-PS67/1AC/24DC/10/IPD 7.2 Device connections and functional elements Device connections are labeled with connection tags to ensure clear and definitive identification. The connection tags are split into the following connection levels: Connection level 1. 2. 3. Figure 2 Description Key No. Designation 1 2 3 AC input DC output Signal contact 4 Location of functional elements and device connections 3 2 2 5 6 7 8 1 9 4 Documentation Phoenix Contact GmbH & Co. KG Flachsmarktstr. 8 32825 Blomberg, Germany TRIO-PS67/ 1AC / 24DC / 10 / IPD Order - No.:1111664 --Output DC Signal Input AC --- L 14 + 3 - DC OK 13 (1) 8 6 2 N 9 13 3 AC OK 10 Output DC 24V 10A DC OK 14 (4) N PE 1 Input AC 100-240V L 109662_en_00 -- 5 11 2 10 11 Die-cast housing Mounting holes (Ø 5.6mm, external) for console or wall mounting Mounting holes (Ø 5.6 mm, centered) for mounting on structural or strut profiles Pressure compensation membrane (bottom of the housing) QR code web link Signaling DC OK LED IPD panel feed-through with Push-in spring connection (black) for output voltage Screw connector plug (male) for signaling IPD panel feed-through with Push-in spring connection (gray) for input voltage AC OK LED signaling Marking field, e.g., for plant and location identification Connection labeling - 7 2 PHOENIX CONTACT 13/22 TRIO-PS67/1AC/24DC/10/IPD 7.3 Block diagram Figure 3 Block diagram Input AC L L N N PE 5 Output D C 1 Filter 2 3 active PFC Filter 1 2 3 4 5 Signal Functions UVP OVP + - 13 14 User Interface OTP OCP SCP AC OK DC OK Key Symbol Filter Designation – Input AC, Output DC Input fuse, internal device protection Symbol UVP EMC filter OVP Rectification aktive PFC Power factor correction (PFC) OTP Switching transistor OCP Transmitter with electrical isolation SCP Smoothing capacitor Electrically isolated signal transmission (optocoupler) Control equipment Symbol Designation – Signal Floating switch contact (13/14) for forwarding the operational readiness to a superordinate control system. Symbol Designation – User interface AC OK LED indicates whether the AC input voltage for power supply is present AC OK DC OK 109662_en_00 Designation – Functions Undervoltage protection protects the AC input of the power supply against damage in the event of an AC undervoltage. Overvoltage protection protects the DC output of the power supply and the connected load against damage in the event of an overvoltage Overtemperature protection protects the power supply against damage in the event of impermissibly high intrinsic external heating. Overcurrent protection protects the DC output of the power supply against damage in the event of an impermissibly high current load. Short-circuit protection protects the DC output of the power supply against damage in the vent of an output-side short circuit. DC OK LED, indicates the operating status of the power supply PHOENIX CONTACT 14/22 TRIO-PS67/1AC/24DC/10/IPD 7.4 Device dimensions Figure 4 Device dimensions (dimensions in mm) 136 Figure 5 53 Drilling pattern for fixing holes (dimensions in mm) Documentation DC OK 14 (4) L N AC OK 13 Output DC 24V 10A 14 + - 1 Input AC 100-240V L DC OK 2 N 13 (1) 3 292 Phoenix Contact GmbH & Co. KG Flachsmarktstr. 8 32825 Blomberg, Germany TRIO-PS67/ 1AC / 24DC / 10 / IPD Order - No.:1111664 PE 7.5 60 228 240 60 - Drilling pattern for fixing holes The power supply is mounted on a flat, loadbearing surface. Fix the power supply in place at the outer corners with at least four mounting screws (hole dimensions: 120 x 228 mm). If the operating conditions are particularly difficult, e.g., due to vibration, six mounting screws can be used. 109662_en_00 PHOENIX CONTACT 15/22 TRIO-PS67/1AC/24DC/10/IPD 8 Mounting/remove The power supply is mounted on a console or directly on a flat mounting surface (wall mounting). Mounting on structural or strut profiles is also possible. 8.1 8.2 Mounting position The specified technical data for the power supply is based on nominal operation. The power supply is not subject to positiondependent derating. Heat dissipation Heat is dissipated from the power supply as radiant heat via the heatsink integrated in the housing cover. During mounting, observe the minimum distances specified for the device side (see section: keep-out zones). Figure 6 Figure 7 Power supply installed in the normal mounting position Heat dissipation through radiant heat Documentation . KG & Co bH ct Gm nta Co tr. 8 rmany oenix rkts , Ge Ph ma erg chs mb Fla 5 Blo 3282 24DC C/ 1A 67/ IO-PS 1664 TR .:111 No rOrde / PD A V Documentation . KG & Co bH ct Gm nta Co tr. 8 rmany oenix rkts , Ge Ph ma erg chs mb Fla 5 Blo 3282 / 10 24DC / 10 A 1664 .:111 - No V ut DC utp 1 ut - Inp 3 OK AC -2 00 DC 1 - OK 14 ) (4 L 1 OK AC 13 ) (1 N N DC OK14 13 V 40 2 + OK14 DC 10 - O DC 24 10 L C/ 1A 24 3 r Orde DC + 2 67/ IO-PS TR ut tp Ou / PD 13 V 40 0-2 ut AC 10 OK AC 13 ) (1 N L Inp PE 14 ) (4 N L PE 8.3 Installation height You can operate the power supply without any performance restrictions up to an installation altitude of 2,000 m. Due to the varying air pressure and the associated reduced convection cooling, different specifications apply for installation sites higher than 2,000 m (see Section: Technical Data, Ambient Conditions). 109662_en_00 PHOENIX CONTACT 16/22 TRIO-PS67/1AC/24DC/10/IPD 8.4 8.5.1 Keep-out areas In the normal mounting position, the power supply is mounted on a flat surface with mounting screws. Figure 8 Wall mounting / temporary fixing (mounting aid) Figure 9 60 60 Device dimensions and minimum keep-out areas (in mm) 136 20 20 50 For temporary fixing, use the same screws as for standard fixing (e.g., M6 x 40, ISO 4762 or hexalobular internal driving screws, e.g., 6 x 40, ISO 10664). 292 Figure 10 Schematic diagram of temporary mounting aid Documentation Phoenix Contact GmbH & Co. KG Flachsmarktstr. 8 32825 Blomberg, Germany DC OK 14 (4) L N AC OK 13 Output DC 24V 10A 14 + - 1 Input AC 100-240V L DC OK 2 N - 100 13 (1) 3 TRIO-PS67/ 1AC / 24DC / 10 / IPD Order - No.:1111664 PE 8.5 Drilling pattern for temporary mounting Mounting the power supply unit A supporting substructure, mounting wall, or structural profile is essential for the installation of the power supply. The IPD panel feed-through with Push-in spring connection is at the bottom when installing in the standard installation position. The die-cast housing is fixed with two or four screws, depending on the type of mounting. Use either Allen screws (such as M5 x 40, ISO 4762) or hexalobular internal driving screws (such as 5 x 40, ISO 10664). In order to secure the screws, use spring washers in accordance with ISO 10670. Proceed as follows to temporarily secure the power supply: 1. Select the appropriate mounting location and the required mounting position. Observe the required keepout zones. 2. Depending on the mounting position, one or two drill holes are needed as a temporary mounting aid. 3. Drill the necessary number of drill holes using a suitable drill, depending on the type of fixing (threaded or wall plug mounting). 4. Prepare the drill hole(s) for the temporary mounting aid (tap M6 thread or insert 8 x 70 mm wall plug). 5. Screw the required number of screws into the fixing holes using a suitable tool so that the screws are still protruding by min. 10 mm. 6. Place the power supply onto the screws, so that they hold it securely in place. 7. Now perform the actual wall mounting process (see section: Wall mounting) Depending on the required mounting position of the power supply, use the temporary mounting aid (eye) to accurately prepare the four mounting holes. They are located in the middle on the top or bottom mounting flange. 109662_en_00 PHOENIX CONTACT 17/22 TRIO-PS67/1AC/24DC/10/IPD 8.5.2 Wall mounting Proceed as follows to mount the power supply: 1. Copy the entire drilling pattern onto the substructure or mounting wall. 2. Select suitable fixing material depending on the substructure or mounting wall 3. Drill the necessary number of drill holes using a suitable drill, depending on the type of fixing (threaded or wall plug mounting). 4. Prepare the drill hole(s) for the temporary mounting aid (tap M6 thread or insert 8 x 70 mm wall plug). 5. Fix the die-cast housing in place using four screws and four spring washers 6. Check that the die-cast housing is securely mounted Figure 11 8.5.3 Structural profile Proceed as follows to mount the power supply: 1. Position the two sliding blocks for fixing in the mounting profile 2. Use the center fixing holes (top, bottom) to fix the diecast housing 3. Fix the die-cast housing in place using two screws and two spring washers 4. Check that the die-cast housing is securely mounted Figure 12 Schematic diagram, structural profile mounting A B Schematic diagram of wall mounting Documentation . KG & Co bH ct Gm ny nta x Co tr. 8 rma eni rkts , Ge Pho ma erg chs mb Fla 25 Blo 328 67/ A C/ 1A PS IO- TR r Orde 24DC / 10 / PD A 1664 .:111 - No V ut DC 24 tp 2 + 3 DC OK14 10 1 Ou - OK DC 13 C/ 1A TR r Orde 24DC / 10 / PD 14 ) (4 u Inp OK AC 13 ) (1 L N PE A 1664 .:111 - No V ut DC 24 tp Ou 2 + 3 DC OK14 DC 10 1 A 10 L Documentation bH ct Gm nta Co tr. 8 rmany oenix rkts , Ge Ph ma erg chs mb Fla 5 Blo 3282 67/ IO-PS V 40 0-2 C tA N B . KG & Co - OK 13 V 14 ) (4 40 -2 ut AC OK AC 13 ) (1 N L Inp 0 10 N L PE B 8.6 Removing the power supply unit For added security, before loosening all the mounting screws, use the two screws of the temporary mounting aid again. To remove the power supply, perform the same procedure for the relevant type of fixing (wall mounting, structural profile mounting) in reverse. 109662_en_00 PHOENIX CONTACT 18/22 TRIO-PS67/1AC/24DC/10/IPD 9 IPD panel feed-through connectors/device-side circular connector The connection contacts of the power supply are designed as IPD panel feed-through connectors or a device-side circular connector. For the respective contact assignment of the IPD panel feed-through connectors or the circular connector for the device supply or load supply, please refer to the relevant section on the input, output, or signaling. 9.2 Connecting the IPD panel feed-through connectors/field-side circular connector The IPD panel feed-through connectors are color coded according to their functional assignment. The field-side circular connector to be used is coded like the device-side circular connector. This ensures clear assignment between AC device supply, DC load supply, and the signal contact. Accidental incorrect connection and plugging is therefore prevented. Figure 13 For protection against fatal electric shock, the diecast housing is wired internally to the protective conductor connection of the IPD panel feedthrough connector for the AC input voltage. Schematic diagram, connecting the IPD panel feed-through connector and the field-side circular connector For the assembly of the IPD panel feed-through connector with Push-in spring connection (gray/ black), refer to the figures in the description that is provided separately (IPD WD xP2,5 Mxx). Optionally available circular connectors (DC OK signal) are required for the field-side connection of the power supply (see accessories). Documentation . KG & Co bH ct Gm nta Co tr. 8 rmany oenix rkts , Ge Ph ma erg chs mb Fla 5 Blo 3282 TR IO-PS r Orde 67/ C/ 1A 24DC / 10 / PD A 1664 .:111 - No V ut DC 1 2 3 Coding of the IPD panel feed-through connectors/field-side circular connector 0-2 ut Output DC 13/14 (floating contact) 109662_en_00 Coding IPD panel feedthrough connector (gray) IPD panel feedthrough connector (black) A-coded AC 10 L - OK 14 ) (4 PE OK AC N L Inp N Device-side marking Input AC DC 13 V 40 Each IPD panel feed-through connector is assigned its special function with clear color coding. In combination with the field-side circular connector, incorrect connection between Input AC, Output DC, and floating signal contact 13/14 is impossible. For the coding of the IPD panel feed-through connectors and the field-side circular connector, refer to the table below: OK14 10 - + DC 9.1 24 tp Ou 13 ) (1 B A Proceed as follows to connect the field-side circular connector: A B 9.3 Plug the field-side circular connector fully onto the device-side circular connector. To lock the circular connectors, tighten the screw locking by turning it clockwise. Disconnecting the field-side circular connector To disconnect the field-side circular connector, perform the same procedure in reverse. PHOENIX CONTACT 19/22 TRIO-PS67/1AC/24DC/10/IPD The power supply is approved for connection to TN, TT, and IT (PE) power grids (star networks) with a maximum phaseto-phase voltage of 240 V AC. Connection is via the IPD panel feed-through connector (gray), connection level 1 (Input AC). 10.1 Figure 15 Schematic diagram, two-phase fuse protection Input DC + PE Primary side connection and fuse protection The installation of the power supply must conform to the regulations of EN 61010. It must be possible to switch off the power supply using a suitable disconnect device outside the power supply. For example, the primary-side line protection is suitable for this (see technical data). 10.1.1 1AC supply network Figure 14 Permissible network types for AC supply TT / TN / IT (PE) Input AC L L N N 5 PE 10.2 Position of the IPD panel feed-through connector (gray) Input AC Figure 16 Device-side position and contact assignment of the IPD panel feed-through connector (gray) Input AC TN-C Input 1AC Input 1AC L1 L2 L3 N PE L1 L2 L3 N PE DC OK Input AC 100-240V 13 L L L N N N N 5 PE 5 PE 10.1.2 DC supply network Operation on DC power grids is also possible in accordance with the DC nominal input voltage. DANGER: Hazardous voltage When operating the power supply on a DC voltage system, observe the maximum permissible input voltage (see section: Technical data). The primary-side fuse protection in DC operation must cover all poles. NOTE: Damage possible if an incorrect fuse is used In DC operation, only use fuses that are approved for DC voltages. - 13 (1) PE Contact assignment Push-in connection L Push-in connection N Push-in connection  11 2 Input AC L L + N Input AC Output DC 24V 10A 14 14 (4) N L PEN 1 AC input 3 10 - Description L/+ (mains supply) N/- (mains supply) Protective conductor connection  DC output A DC voltage for supplying the load is provided at the output of the power supply. Upon delivery, the power supply is preset to a nominal output voltage of 24 V DC. The output voltage value cannot be changed. Connection is via the IPD panel feed-through connector (black), connection level 2 (Output DC). Figure 17 Wiring principle, DC output +24V 0V Output DC + - 109662_en_00 1 2 3 PHOENIX CONTACT 20/22 TRIO-PS67/1AC/24DC/10/IPD 11.1 Protection of the secondary side The power supply is electronically short-circuit-proof and no-load-proof. In the event of an error, the output voltage is limited Overvoltage protection (OVP) limits surge voltages at the DC output to ≤30 V DC (EN 61131-2) Figure 20 Position of signaling elements t≥5s U < 0,9 x UN IN IOUT [A] 1 L AC OK LED 12.2 DC OK-LED 12.3 Floating signal contact Device-side position and contact assignment of the IPD panel feed-through connector (black) Output DC DC OK Input AC 100-240V 13 L 12.1 - A floating switch contact can be used to forward data to a higher-level control system. If the input voltage (0.55 x ACN) is undershot or the nominal output voltage UOUT is 90% of the nominal output voltage UOUT (24 V DC), the LED is steady green. If the DC output voltage falls below the specified limit value, e.g., due to disruption of the supplied DC output load, the LED is no longer activated. 1,5 x IN UN = 24 V IN = 10 A PN = 240 W Idyn. BOOST = 15 A (5 s) Pdyn. BOOST = 360 W (5 s) 14 The AC OK LED is available for function monitoring. When the power supply is supplied with the necessary AC supply voltage, the LED is steady green. If the supplied input voltage falls below the threshold value of 0.55 x ACN (ACN = 90 V AC), the power supply switches off. dyn. Boost UN 13 AC OK PE Output DC 24V 10A DC OK 14 (4) N 2 U/I characteristic curve with dynamic load reserve Input AC 100-240V L N Figure 18 UOUT [V] Two LEDs (AC OK, DC OK) and a floating signal contact (N/ O contact 13/14) are available for preventive function monitoring of the power supply. Output characteristic curve The power supply works with a dynamic power reserve, the dynamic boost, as shown in the U/I characteristic curve in the figure. In the event of a secondary-side short circuit or overload, the output current is limited to 1.5 x IN. The module does not switch off, but supplies a continuous output current instead. The secondary voltage is then reduced until the short circuit is eliminated. The U/I characteristic curve with the dynamic power reserve enables high switch-on currents of capacitive loads or inductive loads to be supplied reliably. – – – – – Signaling 3 11.2 12 N 109662_en_00 3 Contact assignment Push-in connection 1 Push-in connection 2 Push-in connection 3 2 PE 13 (1) - Description +24 V DC 0 V DC 0 V DC PHOENIX CONTACT 21/22 TRIO-PS67/1AC/24DC/10/IPD 13 Connection is via the device-side circular connector, connection level 3 (signal contact). Figure 21 Schematic diagram, floating signal contact Contact load: max. 30 V AC/DC 100 mA Ensure the correct disposal of electronic components PLC Digital Input Do not dispose of the power supply as household waste. Signal 14 Observe the applicable national standards and regulations. +24 V DC 1 2 3 4 5 13 DI x Figure 22 Schematic diagram, floating signal contact on field I/O system Contact load: max. 30 V AC/DC 100 mA Disposal and recycling Field I/O system Ensure correct disposal or recycling Dispose of or recycle packaging material that is no longer needed as household waste. Observe the applicable national standards and regulations. Signal 1 2 3 4 5 13 14 1 2 3 4 5 +24V DC (US) DI (X02, X04, ...) GND DI (X01, X03, ...) FE NOTE: Observe maximum current carrying capacity For the external wiring of the floating switch contact, observe the maximum permissible current carrying capacity of: 30 V AC/DC, 100 mA Device-side position and contact assignment of circular connector 13/14 DC OK Input AC 100-240V 13 L L N 14 (4) Output DC 24V 10A 14 + 1 Figure 23 N 109662_en_00 3 Contact assignment Male contact 1 Male contact 2 Male contact 3 Male contact 4 Male contact 5 2 PE 13 (1) - Description Floating switch contact (13) not used not used Floating switch contact (14) not used PHOENIX CONTACT GmbH & Co. KG • 32823 Blomberg • Germany phoenixcontact.com 22/22