User Manual Bulletin 1608N MiniDySC Dynamic Sag Corrector Single Phase Voltage Sag Correction 2...6 Amps (250...750 VA)
Important User Information Solid-state equipment has operational characteristics differing from those of electromechanical equipment. Safety Guidelines for the Application, Installation and Maintenance of Solid State Controls (publication SGI-1.1 available from your local Rockwell Automation sales office or online at http://www.rockwellautomation.com/literature/) describes some important differences between solid-state equipment and hard-wired electromechanical devices. Because of this difference, and also because of the wide variety of uses for solid-state equipment, all persons responsible for applying this equipment must satisfy themselves that each intended application of this equipment is acceptable. In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment. The examples and diagrams in this manual are included solely for illustrative purposes. Because of the many variables and requirements associated with any particular installation, Rockwell Automation, Inc. cannot assume responsibility or liability for actual use based on the examples and diagrams. No patent liability is assumed by Rockwell Automation, Inc. with respect to use of information, circuits, equipment, or software described in this manual. Reproduction of the contents of this manual, in whole or in part, without written permission of Rockwell Automation, Inc., is prohibited. Throughout this manual, when necessary, we use notes to make you aware of safety considerations. WARNING: Identifies information about practices or circumstances that can cause an explosion in a hazardous environment or which may lead to personal injury or death, property damage, or economic loss. ATTENTION: Identifies information about practices or circumstances that can lead to personal injury or death, property damage, or economic loss. Attentions help you identify a hazard, avoid a hazard, and recognize the consequence. SHOCK HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that dangerous voltage may be present. BURN HAZARD: Labels may be on or inside the equipment, for example, a drive or motor, to alert people that surfaces may reach dangerous temperatures. IMPORTANT ARC FLASH HAZARD: Labels may be on or inside the equipment, for example, a motor control center, to alert people to potential Arc Flash. Arc Flash will cause severe injury or death. Wear proper Personal Protective Equipment (PPE). Follow ALL Regulatory requirements for safe work practices and for Personal Protective Equipment (PPE). Identifies information that is critical for successful application and understanding of the product. MiniDySC, Allen-Bradley, Rockwell Software, Rockwell Automation, and TechConnect are trademarks of Rockwell Automation, Inc. Trademarks not belonging to Rockwell Automation are property of their respective companies. Additional Resources These documents contain additional information concerning related products from Rockwell Automation. Resource Industrial Automation Wiring and Grounding Guidelines, publication 1770-4.1 Product Certifications website, http://www.ab.com Description Provides general guidelines for installing a Rockwell Automation industrial system. Provides declarations of conformity, certificates, and other certification details. You can view or download publications at http:/www.rockwellautomation.com/literature/. To order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative.
Table of Contents Important User Information........................................ 2 Additional Resources............................................... 2 Ch 1 - Installation Installation Check List............................................. 5 Inspecting and Unpacking.......................................... 5 Location (Environment)............................................ 5 Mounting Instructions............................................. 6 DIN Rail Mount............................................... 6 Panel Mount................................................... 6 Ch 2-Operation Ground Connection............................................... 7 Power Connections................................................ 7 Line Connections (Input)....................................... 7 Load Connections (Output).................................... 7 Connection Diagrams.............................................. 8 Alarm Contact Connections........................................ 9 Power Switch...................................................... 9 Operating Indicators............................................... 9 Alarm Codes.................................................... 10 Alarm LED Flash Sequence................................... 10 Ch 3-Specifications and Dimensions Technical Specifications.......................................... 11 Approximate Dimensions......................................... 12 Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014 3
Table of Contents Notes: 4 Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014
Chapter 1 Installation Installation Check List Before proceeding, please take a few minutes to review the necessary steps: All packing materials and restraints have been removed All cables are properly routed All power cables are properly terminated Properly installed ground connector Properly terminated neutral connection (if required) Clean, dust-free work space with adequate lighting Mount the MiniDySC in an upright orientation with at least 2 (50 mm) clearance above and below for proper cooling- see Figure 1 and Figure 2. Take care to prevent metallic particles from entering the vent holes Operational checks have been reviewed and completed The MiniDySC may be DIN rail or panel mounted within an enclosure as long as the ambient temperature remains at or below 40 C ATTENTION: Dangerous voltages will be present on the MiniDySC terminal block while in service. The MiniDySC is intended for use as a component of complete equipment and should not be separately installed in the field. The user must assure a safe operating environment. ATTENTION: Metallic contamination inside the MiniDySC enclosure will void the warranty. Inspecting and Unpacking Carefully inspect the outer packaging for evidence of damage during transit. Do not install a damaged cabinet. Report any damage to the carrier and contact your local sales or service immediately. Check the MiniDySC label for correct model number with the packaging list to ensure you have received the correct voltage, current, and wiring configurations. After removing the packaging material, inspect the contents for any evidence of physical damage, and compare each item with the Bill of Lading. If damage has occurred or shortages are evident contact your carrier immediately. Location (Environment) NOTICE: Install this equipment in an indoor temperature-controlled area, free from condensation and conductive contaminants such as carbon dust. The MiniDySC must be installed in a protected environment. The location must provide adequate airflow around the MiniDySC in an atmosphere free from excessive dust, corrosive fumes, or conductive contaminants. Do not operate the MiniDySC in an environment where the ambient temperature or humidity is beyond the specified limits given in this manual. Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014 5
Chapter 1 Installation Mounting Instructions DIN Rail Mount Figure 1 - DIN Rail Mounting 1. Mount on a 35 x 7.5 mm DIN rail that conforms to the EN 50022 standard. 2. The DIN mounting clips come pre-assembled to the back of the unit. 3. Hook the top edge of the mounting clips over the top flange of the DIN rail. 4. Pivot the MiniDySC down until the unit latches to the DIN rail. 5. To secure the MiniDySC to the DIN rail assemble the locking clip to the top of the MiniDySC with one (1) of the #6 sheet metal screws supplied. See Figure 1. 6. An alternative method to using the locking clip to secure the MiniDySC to the DIN rail is to use the lower panel-mounting bracket. Prior to mounting the unit to the DIN rail install the lower panel-mounting bracket as outlined under Panel mounting instructions. Once the unit is latched to the DIN rail the unit can be secured to the mounting panel with a screw as described under the panel mounting instructions. Panel Mount Figure 2 - Panel Mounting 1. The MiniDySC may be panel mounted with the supplied hardware. 2. Do not remove the DIN mounting clips. 3. Attach the two (2) panel mounting brackets to the MiniDySC with four (4) #6 sheet metal screws supplied. See Figure 2. 4. The panel mounting brackets were designed to accept #8 - #10 hardware with a maximum head diameter of 0.375" (9.5 mm). 5. The center-to-center vertical mounting dimension for screw location is 8.65" (220 mm) on the 250 VA rated MiniDySC models and 9.65" (245 mm) on the 500 VA and 750 VA rated models. 6 Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014
Chapter 2 Operation Ground Connection Connect the safety ground (earth) conductor to the #8-32 (4.2mm dia.) ground stud (Refer to Figure 3 on page 8 or Figure 4 on page 8). Torque to 20 lb-in (2.3 N-m) Note: The MiniDySC must be safety grounded according to the National Electrical Code. All local, state, and federal regulations applicable to the installation of electrical systems apply. Power Connections First remove the 6-pin terminal block connector by removing two retaining screws and pulling out. After connections are made reinstall terminal block connector by pressing back in place and tightening the two retaining screws. Wire Size: 26-12 AWG (0.13-3.31 mm 2 ) Wire Strip Length: 0.256" (6.5 mm) Torque : 5 lb-in (0.6 N-m) Line Connections (Input) For Line-Neutral MiniDySC (part numbers ending in V2S or V2E): connect utility L1 (hot) and N (neutral) to terminals labeled L1 (pin 5) and N (pin 6) as shown in Figure 3 on page 8. For Line-to-Line MiniDySC (part numbers ending in V1S or V1E): connect utility L1 and L2 to terminals labeled L1 (pin 5) and L2/X2 (pin 6) as shown in Figure 4 on page 8. Load Connections (Output) For Line-Neutral MiniDySC (part numbers ending in V2S or V2E): connect load wires to terminals labeled X1 (pin 4) and N (pin 6) as shown in Figure 3 on page 8. For Line-to-Line MiniDySC (part numbers ending in V1S or V1E): connect load wires to terminals labeled X1 (pin 4) and L2/X2 (pin 6) as shown in Figure 4 on page 8. Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014 7
Chapter 2 Operation Connection Diagrams Figure 3-120, 220,230, 240 Volt, 1 Phase, Line-to-Neutral Connection Diagram C NC NO X1 L1 N Input A.C. 1 2 SW1 F1 Ground L1 Neutral X1 Ground LOAD Neutral 1. User-supplied service disconnect (SW1). MiniDySC must be supplied through a single pole switch in the "hot" line, with voltage and current ratings greater than or equal to the MiniDySC ratings. 2. User-supplied fuse (F1). AC input must be fused. See Table 1 for recommended fuse. Note: Input neutral must be connected for all 120V, 220V and 230V applications. Failure to do so may result in damage to the MiniDySC. Do not connect to a source with an AIC rating greater than 10,000 Arms. Table 1 - Fuse Rating MiniDySC Rating 250 VA 500 VA 750 VA 120V 6A,120V 15A, 120V 15A, 120V 220...240V 3.2A, 250V 10A, 250V 10A, 250V Recommended Fuses: Bussmann MDA-6 Bussmann FRN-R-15 Bussmann FRN-R-3-2/10 Bussmann FRN-R-10 Figure 4-208 & 240 Volt, 1 Phase, Line-to-Line Connection Diagram C NC NO X1 L1 L2/X2 Input A.C. 1 2 SW1 F1 Ground L1 L2/X2 X1 Ground LOAD 2 F2 L2/X2 1. User-supplied service disconnect (SW1). MiniDySC must be supplied through a double-pole switch located in both "hot" lines, with voltage and current ratings greater than or equal to the MiniDySC ratings 2. User-supplied fuses (F1, F2). Both hot lines of the AC input must be fused. SeeTable 2 for recommended fuse. Note: Do not connect to a source with an AIC rating greater than 10,000 Arms Table 2 - Fuse Rating MiniDySC Rating 250 VA 500 VA 750 VA 208..240V 3.2A, 250V 10A, 250V 10A, 250V Recommended Fuses: Bussmann FRN-R-3-2/10 Bussmann FRN-R-10 8 Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014
Operation Chapter 2 Alarm Contact Connections The alarm contact will change states during any alarm condition. When the alarm condition has cleared, the alarm relay will return to its normal state. Terminal block pin numbers and Alarm contact ratings are shown in Figure 5 Operation is as follows: Normal Line Condition: pin 1 connects to pin 3. Alarm Condition: pin 1 connects to pin 2. Power Off Condition: pin 1 connects to pin 2. Figure 5 - Alarm Contact 1 COM NC NO 2 3 Alarm Relay Rating 120 VAC.5 A 30 VDC 1A Power Switch The service disconnect or the external branch circuit breaker may be used as a master on/off switch. Operating Indicators When power is switched on, the Green light (Normal) on the front of the MiniDySC will be lighted. The green light indicates that the output voltage is within a normal range of -13% to +10% of nominal. This indicator will also be on during sag correction events since the MiniDySC will be maintaining the output voltage. The Amber light (Alarm) flashes when the MiniDySC correction function is inhibited. See Alarm Codes section below. The MiniDySC will resume its corrective function and the flashing light will turn off when the alarm condition has ceased. In a flashing amber light condition, the MiniDySC will continue to pass the utility power to the load via the static switch. The Red light will be on when the Static switch is inhibited due to an overload condition. The MiniDySC will open the output. Power will need to be cycled to reset the MiniDySC. Table 3 - List of conditions and indications Condition Description Red Light Status Green Light Status Amber Light Status Inverter Operation Status Normal 88.5% < VLINE < 110% of Nominal Off On Off Off Sag Event VLINE < 88.5% while MiniDySC is correcting Off On Off Running Runtime Exceeded Cumulative runtime exceeded Off On Flashing Inhibited Normal Mode, Static Switch Overload Continuous Load current > 150% On Off Off Inhibited Inverter Run Mode, Output Over current Load current > 150% for 3 cycles Off On Flashing Inhibited Refer to Run Time specifications in Technical Specifications on page 11 See Static Switch Maximum Current specifications in Technical Specifications on page 11 If red LED is on, the output of the MiniDySC is inhibited and power needs to be cycled. If the problem reoccurs, the MiniDySC is overloaded. On, provided output is within normal range 88.5%< VLINE <110%. Check Alarm Codes Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014 9
Chapter 2 Operation Alarm Codes Alarm LED Flash Sequence Alarm Name Number of Flashes While the MiniDySC is in the alarm state due to a non-fatal alarm, the amber LED will flash the alarm code sequence at 1Hz where the number of flashes equals the alarm code. There is a two-second delay, after which the code will repeat if the error condition persists. This group of alarms are those that the user can act to correct, such as an overload or input over-voltage. Some alarms cannot be corrected by user action. These alarms may require service by a qualified technician. For such alarms the amber LED will flash continuously at a faster 6 Hz rate. Table 4 - Alarm LED Flash Descriptions Alarm Description Alarm Resolution Inverter Run Time out MiniDySC inverter had a total cumulative runtime of more than rated. No action is needed 3 Inverter Limit Cycle Timeout Power was re-applied more than once within a 58 second period. No action is needed Overload Static Switch Over -Temperature 4 Inverter inhibited because load current exceeded maximum rating. Static switch heatsink temperature was greater than maximum rating. DC Bus Over-Voltage 5 Positive or negative half of DC bus voltage exceeded maximum rating. Reduce the load Verify ambient temperature is within specification Check for dirty or obstructed air vents Check fan is operating (500VA and 750VA only) Verify line voltage is within ratings. Verify proper MiniDySC application Call Service 10 Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014
Chapter 3 Technical Specifications Specifications and Dimensions Table 5 - Technical Specifications MiniDySC (2...6 Amps) Electrical Input/Output (Normal Mode Static Switch) Connection Configuration Standard Input Voltage DySC Series-connected with load. Under normal line condition, the static switch passes utility voltage directly to the load 1Phase: 120, 208, 220, 230, 240V Voltage Range ±10% Current Overload (Trip above these levels) 110% continuous, 150% @ 10 sec., 200% @ 0.5 sec., 300% @ 10 cycles, 400% @ 3 cycles, 1000% Instantaneous Frequency 50/60 Hz Auto Sensing Frequency Range 45 to 65 Hz Surge Protection Device (SPD) Built-in 3-Layers consisting of MOVs & Capacitors Efficiency 250 VA > 94%, 500 VA > 97%, 750 VA > 96% Phase (wiring) 1 phase (L-L & L-N) Detection Voltage 88.5% of rated voltage Response Time (typical) 0.7 ms detection, 1.2 ms inverter reaction (<2ms) Electrical Output (Sag Correction Mode Inverter) Output Voltage Matches pre-sag input voltage Voltage Regulation ±5% typical, +5% / -13% of nominal max Output Current Rated RMS (2A... 6A) with 300% instantaneous peak max Crest Factor (at rated load) 3.0 Load Power factor range -0.5...+0.9, DC component <2% of rated current Voltage Waveform (typical) Sine wave Voltage Sag Correction Times Single Event 87% to 50% voltage remaining 5 seconds SR & ER Sags to zero voltage remaining 50ms or 200ms (standard or extended run time DySCs). Based on nameplate ratings with a power factor of 0.7 Multiple Events Max Sag Correction Time 5 seconds cumulative usage Seqential Sag Recovery 0 seconds (assuming cumulative run-time available) Full Recovery Time Max 5 minutes to full recovery Mechanical Enclosure Ratings NEMA 1 (IP20) Cooling Forced air (500VA, 750VA) or natural convection (250VA) Access Lower front for connections Accessibility (Wiring) Pluggable compression terminal block Communications / User Interface Indicators 3 LEDs: Overload Trip, Normal, Alarm Connectivity Form C contacts rated 120Vac@0.5A or 30Vdc@1A Environmental Ambient Temperature 0...+50 C Storage Temperature -40 C...+75 C Relative Humidity 0...95% non-condensing Altitude Rated current available to 1000m (3300ft) Certifications Agency Approvals culus recognized, Exceeds SEMI F47 Standard Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014 11
Chapter 3 Specifications and Dimensions Approximate Dimensions Dimensions Rating (VA) Dimensions - H x W x D in. [mm] Weight - lbs. [kg] Standard Run-time (SR) 250 8.3 x 3.4 x 6.3 [210.8 x 86.4 x 160] 4.8 [2.18] 500 9.3 x 3.4 x 7.8 [236.2 x 86.4 x 198.1] 6.3 [2.86] 750 9.3 x 3.4 x 7.8 [236.2 x 86.4 x 198.1] 6.7 [3.04] Extended Run-time (ER) 250 8.3 x 5.8 x 6.3 [210.8 x 147.3 x 160] 8.0 [3.63] 500 9.3 x 5.8 x 7.8 [236.2 x 147.3 x 198.1] 9.5 [4.31] 750 9.3 x 5.8 x 7.8 [236.2 x 147.3 x 198.1] 10.2 [4.63] Dimensions in inches [mm]. Dimensions are not intended to be used for manufacturing purposes. 3.4 85.9 5.8 146.6 SR ER "A".3 6.4 "B" SR/ER.4 10.1 Table 6 - Dimensions Dimension 250 VA in. [mm] A 6.0 [152.4] 7.5 [190.5] B 7.8 [197.7] 8.8 [223.1] 500/750 VA in. [mm] 12 Rockwell Automation Publication 1608N-UM001B-EN-P - May 2014
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