1. Safety instructions • Switch main power off before connecting or disconnecting the device. Risk of explosion! • To guarantee sufficient convection cooling, please keep a distance of >40mm above and >20mm below the device as well as a lateral distance of >15mm to other cold source or heat source.
24Vdc power supply with 20% output adjustment range - PLCS.net - Interactive Q & A
For the latest prices, please check AutomationDirect.com. RHINO PSV Series DIN Rail Power Supplies Economical Power Supplies Highlights and Features 15100W Models · Ultra-compact size · Up to 89% efficiency and built-in active PFC · Universal AC input voltage · Full power from -10°C to +55°C · Low earth leakage current < 0.5 ma @ 264VAC · Extreme low temperature cold start at -40°C · NEC Class 2 / Limited Power Source (LPS) certified · Plastic housing · UL/cUL 508 · UL/cUL Recognized 60950-1 · CE · Three year warranty 120480W Models · Universal AC input voltage · Built-in constant current circuit for reactive loads · Up to 89% efficiency · Full power from -10°C to +50°C · Compliance to SEMI F47 @ 200VAC voltage sag immunity · Metal housing · UL/cUL 508 · UL/cUL Recognized 60950-1 · CE · Three year warranty Part No. PSV5-15S PSV5-25S PSV12-50S PSV24-30S PSV24-50S PSV24-100S PSV24-120S PSV24-240S PSV24-480S PSV48-120S tPWR-70 Power Supplies PSV Series Specifications Price Output Maximum Efficiency Voltage Output Power (Typ @ 115VAC) $34.00 5V $47.50 5V $47.50 12V $34.00 24V $44.50 24V $60.00 24V $56.00 24V $81.00 24V $142.00 24V $56.00 48V 15W 25W 48W 30W 50W 91.2 W 120W 240W 480W 120W 79% 82% 88% 87.5% 89% 87% 85% 88% 85% 89% 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV5-15S Power Supply (2) (3) (4) Figure 1 (1) (5) 1 2 3 Figure 2 3 2 1 Figure 3 4-5mm [0.16-0.20in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · To guarantee sufficient convection cooling, please keep a distance of >40mm above and >20mm below the device as well as a lateral distance of >15mm to other cold source or heat source. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. The device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid mm² AWG Torque N·m lb·in 0.32-3.3 22-12 0.51 4.5 0.52-3.3 20-12 0.51 4.5 To secure reliable and shock proof connections, the stripping length should be 4-5mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C for USA or at least 90°C for Canada. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. Thus, if an external protective device is necessary, or utilized, a minimum value of 10A B- or 6A C- characteristic breaker should be used. The internal fuse must not be replaced by the user. Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 Surrounding Air Temperature (°C) -4 5 14 23 32 41 50 59 68 77 86 95 104 113 122 131 140 149 158 Surrounding Air Temperature (°F) Figure 6 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 5VDC connection. The output provides 5VDC. The output voltage can be adjusted from 5 to 5.5 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 6.325-7.425 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of a short circuit or overload the output voltage and current collapses (IO = 110-150%). The secondary voltage is reduced and bounces until short circuit or overload on the secondary side has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity has to be reduced by 2% per degree Celsius increase in temperature. 2. Above +55°C [131°F], the output capacity has to be reduced by 3.33% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 55°C [131°F], the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 tPWR-71 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV5-15S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Recommended backup protection Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Nominal current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at 100% load General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment Class 2 power supply CE Component power supply for general use Immunity Emission Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz < 0.5 A @ 115VAC, < 0.3 A @ 230VAC < 35A @ 115VAC, < 65A @ 230VAC 20ms typ. @ 115VAC (100% load) 100ms typ. @ 230VAC (100% load) < 3s @ 115VAC, < 1.5 s @ 230VAC (100% load) T 3.15 A / 250V (non-replaceable) 10A B- or 6A C- characteristic circuit breaker < 1mA @ 240VAC 5VDC ± 2 % 5-5.5 VDC (maximum power 15W) 3A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 55°C (3.33%/°C) in vertical orientation Max. 3,000F 0.3 W / 4 W 78.0% typ. @ 115VAC, 79.0% typ. @ 230VAC < 75 mVpp Plastic (PC), enclosed Green LED DC OK > 350,000 hrs. as per Telcordia 75mm x 21mm x 89.5 mm [2.95 in x 0.83 in x 3.52 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.11 kg [3.9 oz] Screw connection 4-5mm [0.16-0.20 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s²; displacement of 0.35 mm, 60min per axis for all X, Y, Z directions Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1, Limited Power Source (LPS) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11) EN55032, EN55011, EN61000-3-3, EN61000-6-3, EN61000-6-4 3PET RoHS Compliant Safety and Protection Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class E198298 Yes No 3kVAC 3kVAC 0.5 kVAC IP20 Class I with PE connection 1st Edition, 01/2019 tPWR-72 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV5-25S Power Supply (2) (3) (4) Figure 1 (1) (5) 1 2 3 Figure 2 3 2 1 Figure 3 4-5mm [0.16-0.20in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · To guarantee sufficient convection cooling, please keep a distance of >40mm above and >20mm below the device as well as a lateral distance of >15mm to other cold source. In case the adjacent device is a heat source, the lateral distance will be >25mm. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. The device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid mm² AWG Torque N·m lb·in 0.32-3.3 22-12 0.51 4.5 0.82-3.3 18-12 0.51 4.5 To secure reliable and shock proof connections, the stripping length should be 4-5mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C for USA or at least 90°C for Canada. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. Thus, if an external protective device is necessary, or utilized, a minimum value of 20A B- or 10A C- characteristic breaker should be used. Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 Surrounding Air Temperature (°C) -4 5 14 23 32 41 50 59 68 77 86 95 104 113 122 131 140 149 158 Surrounding Air Temperature (°F) Figure 6 The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 5VDC connection. The output provides 5VDC. The output voltage can be adjusted from 5 to 5.5 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 6.325-7.425 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of a short circuit or overload the output voltage and current collapses (IO = 110-160%). The secondary voltage is reduced and bounces until short circuit or overload on the secondary side has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity has to be reduced by 2% per degree Celsius increase in temperature. 2. Above +55°C [131°F], the output capacity has to be reduced by 3.33% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 55°C [131°F], the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 tPWR-73 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV5-25S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Recommended backup protection Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Nominal current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at 100% load General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment Class 2 power supply CE Component power supply for general use Immunity Emission Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz < 0.8 A @ 115VAC, < 0.5 A @ 230VAC < 35A @ 115VAC, < 60A @ 230VAC 20ms typ. @ 115VAC (100% load) 100ms typ. @ 230VAC (100% load) < 3s @ 115VAC, < 1.5 s @ 230VAC (100% load) T 3.15 A / 250V (non-replaceable) 20A B- or 10A C- characteristic circuit breaker < 1mA @ 240VAC 5VDC ± 2 % 5-5.5 VDC (maximum power 25W) 5A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 55°C (3.33%/°C) in vertical orientation Max. 3,000F 0.4 W / 8 W 79.0% typ. @ 115VAC, 80.0% typ. @ 230VAC < 75 mVpp Plastic (PC), enclosed Green LED DC OK > 350,000 hrs. as per Telcordia 75mm x 30mm x 89.5 mm [2.95 in x 1.18 in x 3.52 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.16 kg [5.6 oz] Screw connection 4-5mm [0.16-0.20 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s²; displacement of 0.35 mm, 60min per axis for all X, Y, Z directions Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1, Limited Power Source (LPS) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11) EN55032, EN55011, EN61000-3-3, EN61000-6-3, EN61000-6-4 3PET RoHS Compliant Safety and Protection Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class E198298 Yes No 3kVAC 3kVAC 0.5 kVAC IP20 Class I with PE connection 1st Edition, 01/2019 tPWR-74 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV12-50S Power Supply (2) (3) (4) Figure 1 (1) (5) 1 2 3 Figure 2 3 2 1 Figure 3 4-5mm [0.16-0.20in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · To guarantee sufficient convection cooling, please keep a distance of >40mm above and >20mm below the device as well as a lateral distance of >15mm to other cold source. In case the adjacent device is a heat source, the lateral distance will be >25mm. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. The device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid mm² AWG Torque N·m lb·in 0.32-3.3 22-12 0.51 4.5 0.52-3.3 20-12 0.51 4.5 To secure reliable and shock proof connections, the stripping length should be 4-5mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C for USA or at least 90°C for Canada. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. Thus, if an external protective device is necessary, or utilized, a minimum value of 20A B- or 13A C- characteristic breaker should be used. Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 Surrounding Air Temperature (°C) -4 5 14 23 32 41 50 59 68 77 86 95 104 113 122 131 140 149 158 Surrounding Air Temperature (°F) Figure 6 The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 12 VDC connection. The output provides 12 VDC. The output voltage can be adjusted from 12 to 15 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 16-18.7 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of a short circuit or overload the output voltage and current collapses (IO = 110-150%). The secondary voltage is reduced and bounces until short circuit or overload on the secondary side has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity has to be reduced by 2% per degree Celsius increase in temperature. 2. Above +55°C [131°F], the output capacity has to be reduced by 3.33% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 55°C [131°F], the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 tPWR-75 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV12-50S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Recommended backup protection Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Nominal current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment Class 2 power supply CE Component power supply for general use Immunity Emission Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz < 1.0 A @ 115VAC, < 0.6 A @ 230VAC < 35A @ 115VAC, < 60A @ 230VAC 20ms typ. @ 115VAC (100% load) 90ms typ. @ 230VAC (100% load) < 3s @ 115VAC, < 1.5 s @ 230VAC (100% load) T 3.15 A / 250V (non-replaceable) 20A B- or 13A C- characteristic circuit breaker < 1mA @ 240VAC 12VDC ± 2 % 12-15 VDC (maximum power 48W) 4A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 55°C (3.33%/°C) in vertical orientation Max. 3,000F 0.5 W / 7 W 86.0% typ. @ 115VAC, 88.0% typ. @ 230VAC < 75 mVpp PSB60-REM20S / PSB60-REM40S or with ORing Diode Plastic (PC), enclosed Green LED DC OK > 350,000 hrs. as per Telcordia 75mm x 30mm x 89.5 mm [2.95 in x 1.18 in x 3.52 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.18 kg [6.3 oz] Screw connection 4-5mm [0.16-0.20 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s²; displacement of 0.35 mm, 60min per axis for all X, Y, Z directions Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1, Limited Power Source (LPS) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11) EN55032, EN55011, EN61000-3-3, EN61000-6-3, EN61000-6-4 3PET RoHS Compliant Safety and Protection Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class E198298 Yes No 3kVAC 3kVAC 0.5 kVAC IP20 Class I with PE connection 1st Edition, 01/2019 tPWR-76 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-30S Power Supply (2) (3) (4) Figure 1 (1) (5) 1 2 3 Figure 2 2 3 1 Figure 3 4-5mm [0.16-0.20in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · To guarantee sufficient convection cooling, please keep a distance of >40mm above and >20mm below the device as well as a lateral distance of >10mm to other cold source. In case the adjacent device is a heat source, the lateral distance will be >25mm. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. The device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid Torque mm² AWG N·m lb·in 0.32-3.3 22-12 0.51 4.5 0.52-3.3 20-12 0.51 4.5 To secure reliable and shock proof connections, the stripping length should be 4-5mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C for USA or at least 90°C for Canada. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. Thus, if an external protective device is necessary, or utilized, a minimum value of 13A B- or 8A C- characteristic breaker should be used. Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 Surrounding Air Temperature (°C) -4 5 14 23 32 41 50 59 68 77 86 95 104 113 122 131 140 149 158 Surrounding Air Temperature (°F) Figure 6 The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 24VDC connection. The output provides 24VDC. The output voltage can be adjusted from 24 to 28 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 30-34.8 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of a short circuit or overload the output voltage and current collapses (IO = 110-150%). The secondary voltage is reduced and bounces until short circuit or overload on the secondary side has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity has to be reduced by 2% per degree Celsius increase in temperature. 2. Above +55°C [131°F], the output capacity has to be reduced by 3.33% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 55°C [131°F], the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 tPWR-77 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-30S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Recommended backup protection Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Nominal current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at +25°C, 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment Class 2 power supply CE Component power supply for general use Immunity Emission Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz < 0.8 A @ 115VAC, < 0.4 A @ 230VAC < 35A @ 115VAC, < 60A @ 230VAC 20ms typ. @ 115VAC (100% load) 100ms typ. @ 230VAC (100% load) < 3s @ 115VAC, < 1.6 s @ 230VAC (100% load) T 3.15 A / 250V (non-replaceable) 13A B- or 8A C- characteristic circuit breaker < 1mA @ 240VAC 24VDC ± 2 % 24-28 VDC (maximum power 30W) 1.25 A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 55°C (3.33%/°C) in vertical orientation Max. 3,000F 0.5 W / 4.5 W 87.0% typ. @ 115VAC, 88.0% typ. @ 230VAC < 75 mVpp PSB60-REM20S / PSB60-REM40S or with ORing Diode Plastic (PC), enclosed Green LED DC OK > 350,000 hrs. as per Telcordia 75mm x 21mm x 89.5 mm [2.95 in x 0.83 in x 3.52 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.11 kg [3.9 oz] Screw connection 4-5mm [0.16-0.20 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s²; displacement of 0.35 mm, 60min per axis for all X, Y, Z directions Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1, Limited Power Source (LPS) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11) EN55032, EN55011, EN61000-3-3, EN61000-6-3, EN61000-6-4 3PET RoHS Compliant Safety and Protection Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class E198298 Yes No 3kVAC 3kVAC 0.5 kVAC IP20 Class I with PE connection 1st Edition, 01/2019 tPWR-78 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-50S Power Supply (2) (3) (4) Figure 1 (1) (5) 1 2 3 Figure 2 3 2 1 Figure 3 4-5mm [0.16-0.20in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · To guarantee sufficient convection cooling, please keep a distance of >40mm above and >20mm below the device as well as a lateral distance of >15mm to other cold source. In case the adjacent device is a heat source, the lateral distance will be >25mm. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. The device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid Torque mm² AWG N·m lb·in 0.32-3.3 22-12 0.51 4.5 0.52-3.3 20-12 0.51 4.5 To secure reliable and shock proof connections, the stripping length should be 4-5mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C for USA or at least 90°C for Canada. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. Thus, if an external protective device is necessary, or utilized, a minimum value of 20A B- or 13A C- characteristic breaker should be used. Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 Surrounding Air Temperature (°C) -4 5 14 23 32 41 50 59 68 77 86 95 104 113 122 131 140 149 158 Surrounding Air Temperature (°F) Figure 6 The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 24VDC connection. The output provides 24VDC. The output voltage can be adjusted from 24 to 28 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 30-34.8 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of a short circuit or overload the output voltage and current collapses (IO = 110-150%). The secondary voltage is reduced and bounces until short circuit or overload on the secondary side has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity has to be reduced by 2% per degree Celsius increase in temperature. 2. Above +55°C [131°F], the output capacity has to be reduced by 3.33% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 55°C [131°F], the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 tPWR-79 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-50S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Recommended backup protection Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Nominal current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at +25°C, 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment Class 2 power supply CE Component power supply for general use Immunity Emission Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz < 1.0 A @ 115VAC, < 0.6 A @ 230VAC < 35A @ 115VAC, < 60A @ 230VAC 20ms typ. @ 115VAC (100% load) 90ms typ. @ 230VAC (100% load) < 3s @ 115VAC, < 1.5 s @ 230VAC (100% load) T 3.15 A / 250V (non-replaceable) 20A B- or 13A C- characteristic circuit breaker < 1mA @ 240VAC 24VDC ± 2 % 24-28 VDC (maximum power 50W) 2.1 A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 55°C (3.33%/°C) in vertical orientation Max. 3,000F 0.5 W / 7W 86.0% typ. @ 115VAC, 88.0% typ. @ 230VAC < 75 mVpp PSB60-REM20S / PSB60-REM40S or with ORing Diode Plastic (PC), enclosed Green LED DC OK > 350,000 hrs. as per Telcordia 75mm x 30mm x 89.5 mm [2.95 in x 1.18 in x 3.52 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.18 kg [6.3 oz] Screw connection 4-5mm [0.16-0.20 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s²; displacement of 0.35 mm, 60min per axis for all X, Y, Z directions Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1, Limited Power Source (LPS) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11) EN55032, EN55011, EN61000-3-3, EN61000-6-3, EN61000-6-4 3PET RoHS Compliant Safety and Protection Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class E198298 Yes No 3kVAC 3kVAC 0.5 kVAC IP20 Class I with PE connection 1st Edition, 01/2019 tPWR-80 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-100S Power Supply (2) (3) (4) Figure 1 (1) (5) 1 2 3 Figure 2 2 3 1 Figure 3 4-5mm [0.16-0.20in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -15 -10 -5 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 Surrounding Air Temperature (°C) -4 5 14 23 32 41 50 59 68 77 86 95 104 113 122 131 140 149 158 Surrounding Air Temperature (°F) Figure 6 READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · To guarantee sufficient convection cooling, please keep a distance of >40mm above and >20mm below the device as well as a lateral distance of >25mm to other cold source or heat source. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. The device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid Torque mm² AWG N·m lb·in 0.32-3.3 22-12 0.51 4.5 0.52-3.3 20-12 0.51 4.5 To secure reliable and shock proof connections, the stripping length should be 4-5mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C for USA or at least 90°C for Canada. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. Thus, if an external protective device is necessary, or utilized, a minimum value of 20A B- or 10A C- characteristic breaker should be used. The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 24VDC connection. The output provides 24VDC. The output voltage can be adjusted from 22 to 24 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 30-34.8 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of a short circuit or overload the output voltage and current collapses (IO = 110-150%). The secondary voltage is reduced and bounces until short circuit or overload on the secondary side has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity has to be reduced by 2% per degree Celsius increase in temperature. 2. Above +55°C [131°F], the output capacity has to be reduced by 3.33% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 55°C [131°F], the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 tPWR-81 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-100S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Recommended backup protection Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Nominal current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at +25°C, 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment Class 2 power supply CE Component power supply for general use Immunity Emission Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz < 1.2 A @ 115VAC, < 0.6 A @ 230VAC < 35A @ 115VAC, < 60A @ 230VAC 25ms typ. @ 115VAC (100% load) 50ms typ. @ 230VAC (100% load) < 3s @ 115VAC, < 1.5 s @ 230VAC (100% load) T 3.15 A / 250V (non-replaceable) 20A B- or 10A C- characteristic circuit breaker < 1mA @ 240VAC 24VDC ± 2 % 22-24 VDC (maximum power 91.2 W) 3.8 A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 55°C (3.33%/°C) in vertical orientation Max. 3,000F 0.4 W / 10W 87.0% typ. @ 115VAC, 89.0% typ. @ 230VAC < 75 mVpp PSB60-REM20S / PSB60-REM40S or with ORing Diode Plastic (PC), enclosed Green LED DC OK > 350,000 hrs. as per Telcordia 75mm x 45mm x 100mm [2.95 in x 1.77 in x 3.94 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.325 kg [11.5 oz] Screw connection 4-5mm [0.16-0.20 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s²; displacement of 0.35 mm, 60min per axis for all X, Y, Z directions Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1, Limited Power Source (LPS) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11) EN55032, EN55011, EN61000-3-3, EN61000-6-3, EN61000-6-4 3PET RoHS Compliant Safety and Protection Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class E198298 Yes No 3kVAC 1.5 kVAC 0.5 kVAC IP20 Class I with PE connection 1st Edition, 01/2019 tPWR-82 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-120S Power Supply (2) (5) (1) Figure 1 2 1 3 Figure 2 2 (3) (4) 3 1 Figure 3 7mm [0.28in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -10 0 10 20 30 40 50 60 70 Surrounding Air Temperature (°C) -4 14 32 50 68 86 104 122 140 158 Surrounding Air Temperature (°F) Figure 6 115 VAC 230 VAC READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · If the unit is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. · To guarantee sufficient convection cooling, please keep a distance of 50mm above and 18cm below the device as well as a lateral distance of 10mm to other units. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. For vertical mounting, the device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid Torque mm² AWG N·m lb·in 0.823-8.365 18-8 1.01 9 0.20-3.3 24-12 0.68 6 To secure reliable and shock proof connections, the stripping length should be 7mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). All wire strands must be fully inserted into the terminals with the screws securely fastened in order to ensure safety and maximum contact. In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C or more to fulfill UL requirements. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 24VDC connection. The output provides 24VDC. The output voltage can be adjusted from 22 to 28 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 28.8-35.2 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of an overload (IO = 105-150%) the output voltage will start to droop until overload has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity must be reduced by 2% per °C temperature increase. 2. Above +40°C [104°F] (115VAC), the output capacity must be reduced by 1.67% per degree Celsius temperature increase. 3. Above +50°C [122°F] (230VAC), the output capacity must be reduced by 2.5% per degree Celsius temperature increase. If the output capacity is not reduced when TAmb > 40°C (115VAC) or > 50°C (230VAC), the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 tPWR-83 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-120S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Output current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment CE Component power supply for general use Immunity Emission Voltage Sag Immunity Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz 2.2 A typ. @ 115VAC, 1.2 A typ. @ 230VAC 20A typ. @ 115VAC, 40A typ. @ 230VAC 20ms typ. @ 115VAC (100% load) 90ms typ. @ 230VAC (100% load) 200ms typ. @ 115VAC & 230VAC (100% load) T 4A / 250V (non-replaceable) < 0.25 mA @ 264VAC 24VDC ± 2 % 22-28 VDC (maximum power 120W) 5A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 40°C (1.67%/°C) @ 115VAC -10°C to -20°C (2%/°C), > 50°C (2.5%/°C) @ 230VAC Max. 8,000F 0.65 W / 13.3 W 88.0% typ. @ 115VAC, 90.0% typ. @ 230VAC < 120 mVpp PSB60-REM20S / PSB60-REM40S or with ORing Diode SGCC (Case Cover) / Aluminum (Case Chassis) Green LED DC OK > 700,000 hrs. as per Telcordia 123.6 mm x 40mm x 117.6 mm [4.87 in x 1.57 in x 4.63 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.54 kg [19 oz] Screw connection 7mm [0.28 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s² (2G peak); 10min per cycle, 60min for X direction Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m for industrial application 5000m for ITE application SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1 UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11, 12) EN55032, EN55011, EN61000-3-2 Class A, EN61000-3-3, EN61000-6-3, EN61000-6-4 SEMI F47 0706 @ 200VAC 4ZW4 RoHS Compliant Safety and Protection Transient surge voltage protection Current limitation at short-circuits approx. Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class 1st Edition, 01/2019 E198298 Yes Varistor Isurge = 105-150% or Pomax typically Yes 3kVAC 2kVAC 0.5 kVAC IP20 Class I with PE connection tPWR-84 Power Supplies 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-240S Power Supply (2) (5) (1) Figure 1 2 1 3 Figure 2 2 (3) (4) 3 1 Figure 3 7mm [0.28in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -10 0 10 20 30 40 50 60 70 Surrounding Air Temperature (°C) -4 14 32 50 68 86 104 122 140 158 Surrounding Air Temperature (°F) Figure 6 115 VAC 230 VAC tPWR-85 Power Supplies READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · If the unit is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. · To guarantee sufficient convection cooling, please keep a distance of 50mm above and 18cm below the device as well as a lateral distance of 10mm to other units. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. For vertical mounting, the device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid Torque mm² AWG N·m lb·in 1.3-3.3 16-12 1.01 9 1.3-3.3 16-12 0.68 6 To secure reliable and shock proof connections, the stripping length should be 7mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). All wire strands must be fully inserted into the terminals with the screws securely fastened in order to ensure safety and maximum contact. In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C or more to fulfill UL requirements. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 24VDC connection. The output provides 24VDC. The output voltage can be adjusted from 22 to 28 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 28.8-35.2 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of an overload (IO = 105-150%) the output voltage will start to droop until overload has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. Above +40°C [104°F] (115VAC), the output capacity has to be reduced by 1.67% per degree Celsius increase in temperature. 2. Above +50°C [122°F] (230VAC), the output capacity has to be reduced by 2.5% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 40°C [104°F] (115VAC) or > 50°C [122°F] (230VAC), the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-240S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Output current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment CE Component power supply for general use Immunity Emission Voltage Sag Immunity Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz 2.8 A typ. @ 115VAC, 1.4 A typ. @ 230VAC 20A typ. @ 115VAC, 40A typ. @ 230VAC 10ms typ. @ 115VAC (100% load) 16ms typ. @ 230VAC (100% load) 1000ms typ. @ 115VAC & 230VAC (100% load) T 6.3 A / 250V (non-replaceable) < 1mA @ 264VAC 24VDC ± 2 % 22-28 VDC (maximum power 240W) 10A Refer to Fig. 6 > 40°C (1.67%/°C) @ 115VAC (90-229 VAC) > 50°C (2.5%/°C) @ 230VAC (230-264 VAC) Max. 8,000F 4.62 W @ 115VAC (0% load) 2.14 W @ 230VAC (0% load) 31.53 W @ 115VAC (100% load) 25.44 W @ 230VAC (100% load) 88.0% typ. @ 115VAC, 90.0% typ. @ 230VAC < 120mVpp @ -10°C to +70°C < 240mVpp @ -20°C to -10°C PSB60-REM20S / PSB60-REM40S or with ORing Diode SGCC (Case Cover) / Aluminum (Case Chassis) Green LED DC OK > 700,000 hrs. as per Telcordia 123.6 mm x 60mm x 117.6 mm [4.87 in x 2.36 in x 4.63 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.80 kg [28 oz] Screw connection 7mm [0.28 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s² (2G peak); 10min per cycle, 60min for X direction Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m for industrial application 5000m for ITE application SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1 UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11, 12) EN55032, EN55011, EN61000-3-2 Class A, EN61000-3-3, EN61000-6-3, EN61000-6-4 SEMI F47 0706 @ 200VAC 4ZW4 RoHS Compliant Safety and Protection Transient surge voltage protection Current limitation at short-circuits approx. Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class 1st Edition, 01/2019 tPWR-86 Power Supplies E198298 Yes Varistor Isurge = 105-150% or Pomax typically Yes 3kVAC 2kVAC 0.5 kVAC IP20 Class I with PE connection 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-480S Power Supply (3) (5) (4) (1) (2) Figure 1 2 1 3 Figure 2 3 2 1 Figure 3 7mm [0.28in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -10 0 10 20 30 40 50 60 70 Surrounding Air Temperature (°C) -4 14 32 50 68 86 104 122 140 158 Surrounding Air Temperature (°F) Figure 6 115 VAC 230 VAC tPWR-87 Power Supplies READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · If the unit is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. · To guarantee sufficient convection cooling, please keep a distance of 50mm above and 18cm below the device as well as a lateral distance of 10mm to other units. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. For vertical mounting, the device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid Torque mm² AWG N·m lb·in 1.3-3.3 16-12 1.01 9 1.3-3.3 16-12 0.68 6 To secure reliable and shock proof connections, the stripping length should be 7mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). All wire strands must be fully inserted into the terminals with the screws securely fastened in order to ensure safety and maximum contact. In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C or more to fulfill UL requirements. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 24VDC connection. The output provides 24VDC. The output voltage can be adjusted from 22 to 28 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 28.8-35.2 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of an overload (IO = 109-130%) the output voltage will start to droop until overload has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. Above +40°C [104°F] (115VAC), the output capacity has to be reduced by 1.67% per degree Celsius increase in temperature. 2. Above +50°C [122°F] (230VAC), the output capacity has to be reduced by 2.5% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 40°C [104°F] (115VAC) or > 50°C [122°F] (230VAC), the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV24-480S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Output current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment CE Component power supply for general use Immunity Emission Voltage Sag Immunity Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz 5.4 A typ. @ 115VAC, 2.7 A typ. @ 230VAC 40A typ. @ 115VAC, 80A typ. @ 230VAC 10ms typ. @ 115VAC (100% load) 16ms typ. @ 230VAC (100% load) 1000ms typ. @ 115VAC & 230VAC (100% load) F 10 A / 250V (non-replaceable) < 1mA @ 264VAC 24VDC ± 2 % 22-28 VDC (maximum power 480W) 20A Refer to Fig. 6 > 40°C (1.67%/°C) @ 115VAC (90-229 VAC) > 50°C (2.5%/°C) @ 230VAC (230-264 VAC) Max. 8,000F 5W @ 115VAC (0% load) 4W @ 230VAC (0% load) 50W @ 115VAC (100% load) 40W @ 230VAC (100% load) 85.0% typ. @ 115VAC, 88.0% typ. @ 230VAC < 120mVpp @ -10°C to +70°C < 240mVpp @ -20°C to -10°C PSB60-REM40S or with ORing Diode SGCC (Case Cover) / Aluminum (Case Chassis) Green LED DC OK > 700,000 hrs. as per Telcordia 123.6 mm x 85.5 mm x 128.5 mm [4.87 in x 3.37 in x 5.06 in] (See www.AutomationDirect.com for complete engineering drawings.) 1.30 kg [45.9 oz] Screw connection 7mm [0.28 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s² (2G peak); 10min per cycle, 60min for X direction Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m for industrial application 5000m for ITE application SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1 UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11, 12) EN55032, EN55011, EN61000-3-2 Class A, EN61000-3-3, EN61000-6-3, EN61000-6-4 SEMI F47 0706 @ 200VAC 4ZW4 RoHS Compliant Safety and Protection Transient surge voltage protection Current limitation at short-circuits approx. Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class 1st Edition, 01/2019 tPWR-88 Power Supplies E198298 Yes Varistor Isurge = 109-130% or Pomax typically (continuous current) Yes 3kVAC 2kVAC 0.5 kVAC IP20 Class I with PE connection 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV48-120S Power Supply (2) (5) (1) Figure 1 2 1 3 Figure 2 2 (3) (4) 3 1 Figure 3 7mm [0.28in] 1 2 Figure 4 L N GND L L L GND/N GND/N N LN + LN + LN + LN + Figure 5 Percentage of Max Load (%) Power Derating Curve for PSU in Vertical Mounting 110 100 90 80 70 60 50 40 30 20 10 0 -20 -10 0 10 20 30 40 50 60 70 Surrounding Air Temperature (°C) -4 14 32 50 68 86 104 122 140 158 Surrounding Air Temperature (°F) Figure 6 115 VAC 230 VAC tPWR-89 Power Supplies READ INSTRUCTIONS BEFORE INSTALLING OR OPERATING THIS DEVICE. KEEP FOR FUTURE REFERENCE. 1. Safety instructions · Switch main power off before connecting or disconnecting the device. Risk of explosion! · If the unit is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired. · To guarantee sufficient convection cooling, please keep a distance of 50mm above and 18cm below the device as well as a lateral distance of 10mm to other units. · Note that the enclosure of the device can become very hot depending on the ambient temperature and load of the power supply. Risk of burns! · The main power must be turned off before connecting or disconnecting wires to the terminals! · Do not introduce any objects into the unit! · Dangerous voltage present for at least 5 minutes after disconnecting all sources of power. · The power supplies are built-in units and must be installed in a cabinet or room (condensation free environment and indoor location) that is relatively free of conductive contaminants. · The unit must be installed in an IP54 enclosure or cabinet in the final installation. · CAUTION: FOR USE IN A CONTROLLED ENVIRONMENT. 2. Device description (Fig. 1) (1) Input terminal block connector (2) Output terminal block connector (3) DC voltage adjustment potentiometer (4) DC OK LED (green) (5) Universal mounting rail system 3. Mounting (Fig. 2) The power supply unit can be mounted on 35mm DIN rails in accordance with EN60715. For vertical mounting, the device should be installed with input terminal block on the bottom. Each device is delivered ready to install. Snap on the DIN rail as shown in Fig. 2: 1. Tilt the unit slightly upwards and put it onto the DIN rail. 2. Push downwards until stopped. 3. Press against the bottom front side for locking. 4. Shake the unit slightly to ensure that it is secured. 4. Dismounting (Fig. 3) To uninstall, use a flat screwdriver to pull or slide down the latch as shown in Fig. 3. Then slide the PSU in the opposite direction, release the latch and pull out the PSU from the rail. 5. Connection The terminal block connectors allow easy and fast wiring. You can use flexible (stranded wire) or solid cables with cross sections: Input Output Electrical Connections and Wire Size Stranded / Solid Torque mm² AWG N·m lb·in 0.823-8.365 18-8 1.01 9 0.20-3.3 24-12 0.68 6 To secure reliable and shock proof connections, the stripping length should be 7mm (see Fig. 4 (1)). Please ensure that wires are fully inserted into the connecting terminals as shown in Fig. 4 (2). All wire strands must be fully inserted into the terminals with the screws securely fastened in order to ensure safety and maximum contact. In accordance to EN60950 / UL60950, flexible cables require ferrules. Use appropriate copper cables that are designed to sustain operating temperature of at least 60°C/75°C or more to fulfill UL requirements. 5.1. Input connection (Fig. 1, Fig. 5) Use L, N and GND connections of input terminal connector (see Fig. 1 (1)) to establish the 100-240 VAC connection. Typical connection methods are shown in Figure 5. The unit is protected with an internal fuse (not replaceable) at L pin and it has been tested and approved on 20A (UL) and 16A (IEC) branch circuits without additional protection device. An external protection device is only required if the supplying branch has an ampacity greater than above. The internal fuse must not be replaced by the user. 5.2. Output connection (Fig. 1 (2)) Use the "+" and "-" screw connections to establish the 48 VDC connection. The output provides 48 VDC. The output voltage can be adjusted from 44 to 56 VDC on the potentiometer. The green LED DC OK displays correct function of the output (Fig. 1 (4)). The device has a short circuit and overload protection and an overvoltage protection limited to 56-67.2 VDC. 5.3. Output characteristic curve The device functions normal under operating line and load conditions. In the event of an overload (IO = 105-150%) the output voltage will start to droop until overload has been removed. 5.4. Thermal behavior (Fig. 6) In the case of ambient temperatures: 1. At -10°C to -20°C [14°F to -4°F], the output capacity has to be reduced by 2% per degree Celsius increase in temperature. 2. Above +40°C [104°F] (115VAC), the output capacity has to be reduced by 1.67% per degree Celsius increase in temperature. 3. Above +50°C [122°F] (230VAC), the output capacity has to be reduced by 2.5% per degree Celsius increase in temperature. If the output capacity is not reduced when TAmb > 40°C [104°F] (115VAC) or > 50°C [122°F] (230VAC), the device will engage thermal protection by switching off, i.e., the output voltage will go into latch-off mode until the component temperature cools down and the AC power is recycled. FOR TECHNICAL ASSISTANCE CALL 770-844-4200 1-800-633-0405 For the latest prices, please check AutomationDirect.com. RHINO PSV48-120S Power Supply Input (AC) Nominal input voltage / frequency Voltage range Frequency Nominal current Inrush current limitation (+25°C, cold start) Mains buffering at nominal load (typ.) Turn-on time Internal fuse Leakage current Output (DC) Nominal output voltage UN / tolerance Voltage adjustment range Output current Derating Startup with capacitive loads Max. power dissipation idling / nominal load approx. Efficiency at 100% load PARD (20MHz) at 100% load Parallel operation General Data Type of housing LED signals MTBF Dimensions (L x W x H) Weight Connection method Stripping length Operating temperature (surrounding air temperature) Storage temperature Humidity at +25°C, no condensation Vibration Shock Pollution degree Altitude (operating) Certification and Standards Safety entry low voltage Electrical safety (of information technology equipment) Industrial control equipment CE Component power supply for general use Immunity Emission Voltage Sag Immunity Technical Specifications 100-240 VAC / 50-60 Hz 85-264 VAC 47-63 Hz 2.2 A typ. @ 115VAC, 1.2 A typ. @ 230VAC 20A typ. @ 115VAC, 40A typ. @ 230VAC 20ms typ. @ 115VAC (100% load) 90ms typ. @ 230VAC (100% load) 200ms typ. @ 115VAC & 230VAC (100% load) T 4A / 250V (non-replaceable) < 0.25 mA @ 264VAC 48VDC ± 2 % 44-56 VDC (maximum power 120W) 2.5 A Refer to Fig. 6 -10°C to -20°C (2%/°C), > 40°C (1.67%/°C) @ 115VAC -10°C to -20°C (2%/°C), > 50°C (2.5%/°C) @ 230VAC Max. 4,000F 1.21 W / 13.3 W 89.0% typ. @ 115VAC, 90.0% typ. @ 230VAC < 150 mVpp PSB60-REM20S / PSB60-REM40S or with ORing Diode SGCC (Case Cover) / Aluminum (Case Chassis) Green LED DC OK > 700,000 hrs. as per Telcordia 123.6 mm x 40mm x 117.6 mm [4.87 in x 1.57 in x 4.63 in] (See www.AutomationDirect.com for complete engineering drawings.) 0.54 kg [19 oz] Screw connection 7mm [0.28 in] -20°C to +70°C [-4°F to +158°F] (Refer to Fig. 6) -40°C to +85°C [-40°F to +185°F] 5 to 95% RH Operating: IEC60068-2-6, Sine Wave: 10Hz to 500Hz @ 19.6m/s² (2G peak); 10min per cycle, 60min for X direction Non-Operating: IEC60068-2-6, Random: 5Hz to 500Hz (2.09 Grms); 20 min. per axis for all X, Y, Z directions Operating: IEC60068-2-27, Half Sine Wave: 10G for a duration of 11ms, shock for 1 direction (X axis) Non-Operating: IEC60068-2-27, Half Sine Wave: 50G for a duration of 11ms, 3 shocks for each 3 directions 2 2000m for industrial application 5000m for ITE application SELV (EN60950) UL/C-UL recognized to UL60950-1 and CSA C22.2 No. 60950-1 (File No. E198298), CB scheme to IEC60950-1 UL/C-UL listed to UL508 and CSA C22.2 No.107.1-01 (File No. E197592) In conformance with EMC directive 2014/30/EU and Low Voltage Directive 2014/35/EU EN61204-3 EN55024, EN61000-6-1, EN61000-6-2 (EN61000-4-2, 3, 4, 5, 6, 8, 11, 12) EN55032, EN55011, EN61000-3-2 Class A, EN61000-3-3, EN61000-6-3, EN61000-6-4 SEMI F47 0706 @ 200VAC 3PET RoHS Compliant Safety and Protection Transient surge voltage protection Current limitation at short-circuits approx. Surge voltage protection against internal surge voltages Isolation voltage: Input / output Input / PE Output / PE Protection degree Safety class 1st Edition, 01/2019 tPWR-90 Power Supplies E198298 Yes Varistor Isurge = 105-150% or Pomax typically Yes 3kVAC 2kVAC 0.5 kVAC IP20 Class I with PE connection 1-800-633-0405AutomationDirect