Power Switching & Controls For Business-Critical Continuity™ Panelmount (Facility-Wide) Surge Protection AC Power Protection Table of Contents Introduction to Surge Protection Why Should I Install Facility-Wide Surge Protection?......................................................................................... 1 Our 3-Step Approach to Facility-Wide Surge Protection ..................................................................................................................................................................... 2-3 SurgeHOTSpots in HIGH-RISK Locations (Illustrated) Step 1 – Follow Conductor Entry Points............................................................................................................4-5 SurgeHOTSpots in CRITICAL Locations (Illustrated) Step 2 – Locate Important Panels.....................................................................................................................6-7 SurgeHOTSpots – IEEE Recommended (Illustrated) Step 3 – Cascade Surge Protective Devices.......................................................................................................8-9 Our Solution 500, 400, 300 Series..........................................................................................................................................10 Surge Protection Installation Diagram Power Distribution One-Line Diagram................................................................................................................11 Surge Protection Product Descriptions, Specifications and Ordering Information 570...............................................................................................................................................................12-15 560...............................................................................................................................................................16-19 510...............................................................................................................................................................20-23 440...............................................................................................................................................................24-25 420...............................................................................................................................................................26-27 330...............................................................................................................................................................28-29 320...............................................................................................................................................................30-31 Product Comparison Chart .....................................................................................................................................................................32-33 Contact Us ...................................................................................................................................................32-33, backcover Our Comprehensive Surge Protection Plan—For Your Facility Why Should I Install Facility-Wide Surge Protection? Damage Due To Transients and Surges In today’s world, almost every business depends on fragile micro-electronics to run everything from computer networks to manufacturing lines which means power disturbances can disrupt or cripple equipment, causing loss of data, and an increase in downtime. In fact, downtime and damage caused by power disturbances or transients cost companies billions of dollars each year. The terms used to describe these power disturbances are varied — surges, transients, spikes, swells, or noise. What these terms describe are high-energy events that are microseconds in duration. The magnitude of these events can vary dramatically based on how they are generated and where they occur relative to the facility. Transient impulses like those caused by lightning or utility grid switching can produce high-energy events that adversely affect your facility’s incoming power. These disturbances will then propagate throughout your facility and ultimately place each panel and the panel’s downstream equipment, at risk. Numerous standards exist which address these concerns by recommending coordinated protection throughout your facility. Develop A Plan The benefits of installing surge protective devices (SPDs) throughout a facility are clear: •Reduction in downtime •Improved system and data reliability •Elimination of damaged equipment due to transients and surges Taking the extra steps to ensure the operation of your facility requires a coordinated surge protection plan that identifies susceptible “SURGEHOTSpots” within that facility. ­­ 1 Emerson Network Power’s 3-Step Approach to Facility-Wide Surge Protection 1 2 3 Lightning generated transients are diverse, varying in magnitude, duration, and frequency. Most lightning strikes are actually multi-stroke in nature, with a typical single flash containing four or more strokes. These transients can enter your electrical system at significant levels, working through your facility on any exposed conductor or path. They can directly enter your building via a flash or near a flash to your structure and indirectly through power lines or your building’s wiring. Emerson Network Power has developed a series of products to specifically address these potential SURGEHOTSp ts™. With over 40 years of experience designing and manufacturing world-class surge protection products, we’ve established a Surge HOT Spots 3-Step Approach for you to follow to ensure a properly protected facility. L K RIS H IG E Im ES ur CO ge M M E N D ED Prot ec t i v e De v i ce s p o r t a n t P a n e ls A RE E SC I EE CA 2 STEP 2 t ry Point s YOUR FACILITY D STEP 3 t o r En T CA ITICAL CR H W Co uc nd O FO LL O STEP 1 For optimum protection, IEEE recommends cascading surge protection throughout your facility. This approach suggests placing high capacity surge protection devices, (SPDs), at the service entrance (or conductor entry points), followed by SPDs at downstream distribution and branch panels. FOLLOW... Follow conductor entry points that penetrate your facility. These lead to electrical panels susceptible to the highest surge impulse levels – we refer to these entry points as “HIGH-RISK” surge paths. Service Entrance Panel Back-up Power Main Power from Utility Rooftop HVAC Exterior/Parking Lot Lighting LOCATE... Locate all electrical panels and install surge protection on equipment connected to or involved in: •Alternate power •Essential systems •Emergency operations UPS IT/Network Services Emergency Systems These “CRITICAL” panels need to provide power to equipment in the most extreme conditions. CASCADE... Distribution Panels Cascade surge protective devices, (SPDs) throughout your facility on all panels downstream from the panels identified in STEPS 1 and 2. For optimum protection, IEEE (Institute of Electrical and Electronics Engineers), recommends cascading surge protection throughout your facility. This approach suggests placing high capacity surge protection devices, (SPDs), at the service entrance (or conductor entry points), followed by SPDs at downstream distribution and branch panels. 3 SURGEHOTSp ts™ Surge HOT Spots Facility-Wide Surge Protection Step 1 — Follow Conductor Entry Points It’s recommended practice to individually provide surge protection on both the equipment and the panel board feeding the equipment. Rooftop HVAC All exterior mechanical systems located in an area not effectively protected by a lightning protection system should be considered targets. Rooftop HVAC Exterior Lighting Lightning transients put the electronics within the fixture at risk. Additionally, it provides a direct path for the transient to enter the facility’s electrical system. Exterior/Parking Lot Lighting 4 6 HIGH-RISK Locations Surge protection is required to protect the sensitive components within the switch and the loads supplied by the output distribution panel. Detached Structure Small buildings that do not contain their own utility feed and are electrically connected to the main facility may experience problems due to ground potential differences. Transfer Switch The transfer switch controls and monitors the power from the generator and distributes it to the most critical equipment within the facility. A strike close to either building will cause a voltage differential, which in turn will cause high currents to flow. Detached Structure Transfer Switch Service Entrance Panel Service Entrance The power from the utility feeding your facility is a primary transient target because of induced events on high-mast overhead lines and a direct connection to possible grid switching. 5 7 SURGEHOTSp ts™ Surge HOT Spots Facility-Wide Surge Protection Step 2 — Locate Important Panels UPS Generally feeds critical IT equipment and key systems within a facility. Transient voltage can damage sensitive components within the UPS and electrically connected downstream equipment. Apply protection at the line side and the load side of the UPS, as well as the manual bypass switch. Facility UPS Rackmount Equipment Network/IT Equipment Your facility’s data center or server room is the central point for all network activity. Any anomaly such as a transient or surge can cripple your business. Apply surge protection at all electrical panels feeding power to the room and at the rack equipment level. 6 8 Critical Locations ‘Essential’ Panels NEC article 708 requires surge protection at these locations in all “mission-critical facilities”. Electrical panels feeding power to both life safety and critical power applications, need to be properly protected. Life safety include: •Fire alarms •Egress lighting Life Safety Panels Critical power include: •Medical prep areas •Operating rooms Critical Panels 7 9 SURGEHOTSp ts™ Surge HOT Spots Facility-Wide Surge Protection Step 3 — Cascade Surge Protective Devices Cascaded Protection Apply surge protection to all panels that are electrically tied to panels deemed high-risk or important. Cascaded protection ensures that residual transient voltage is mitigated to safe levels as it moves through the electrical system. Residual Voltage Residual voltage is the amount of transient voltage remaining on the AC line after a surge protection device, (SPD) has performed its function. Many high energy events can still be extreme enough to cause significant damage after only passing by a single level of surge protection. A second and often a third level of protection is necessary to provide clean voltage to sensitive equipment. 8 10 IEEE Recommended ”Section 8.6.4 (p. 301) “In addition to SPDs installed in the service entrance equipment, it is recommended that additional SPDs…be applied to downstream electrical switchboards and panelboards, and panelboards on the secondary of separately derived systems… 9 11 Our Solution 570 560 500 Series — Premium 400 Series — Compact Emerson Network Power’s 500 Series are designed with the strictest industry requirements in mind. This diverse family of products uses patented surge technology to provide survivability and exceptional performance in the most extreme conditions. With a variety of technology, monitoring and packaging solutions, each model line within the 500 series can be tailored to meet your specific requirements. The 400 Series includes: •Thermally protected MOV technology •Surge current rating–matches or exceeds industry performance levels •Repetitive life cycle testing–Matches or exceeds industry levels •SCCR–200 kAIC •UL 1449–Type 1 or 2, 20kA iNominal ratings •IEC, CE–Compliant The 500 Series includes: •True surge capability–handles multiple impulses at its highest rated level •Individually fused surge arrays–ensures industries highest levels of safety and performance •Redundant protection–multiple surge components each with a dedicated fuse •Repetitive Impulse Capability–unmatched performance during life cycle testing •Temporary overvoltage survivability SCCR–200kAIC •UL 1449–Type 1 or 2, 20kA iNominal ratings 570 SAD/MOV Hybrid Design–surge levels ranging from 125 kA to 375 kA per mode 560 MOV Design–surge levels ranging from 80 kA to 500 kA per mode 510 MOV Array–surge levels ranging from 65 kA to 250 kA per mode 10 440 Thermally protected, MOV Design–surge levels ranging from 100 kA or 160 kA per mode 420 Thermally protected, MOV Design–50 kA surge level per mode in either all or reduced mode configurations 300 Series — Medium/Low Exposure The 300 Series includes: •Thermally protected MOV technology •Surge current rating–single impulse capable •SCCR–up to 65 kAIC •UL 1449–Type 2 330 All mode protected, MOV Design–surge levels ranging from 50 kA or 80 kA per mode 320 MOV Design–surge level is 25 kA per mode Surge Protection Installation Diagram Power Distribution One-Line Diagram Main Power from Utility 420 Emergency Power Transformer Rooftop HVAC Outside Facility Facility Exterior Wall Inside Facility HIGH-RISK CRITICAL IEEE RECOMMENDED 570 Service Entrance Panel 510 570 570 Detached Structure 570 570 Distribution Panel Transfer Switch 570 510 Rackmount Equipment Sensitive Equipment 560 560 560 Facility UPS Facility Exterior Wall Facility Exterior Wall Exterior/Parking Lot Lighting Critical Panels Life Safety Panels Facility Exterior Wall 11 Surge Protection Product Descriptions 570 Surge Protective Device Multi-Stage System of Suppression The Emerson Network Power 570 surge protective device, (SPD) is the first hybrid product in the industry to offer a true, coordinated multistage system of suppression. It integrates the fast response time of the Silicone Avalanche Diode (SAD) with the high-energy capability of our 560 Metal Oxide Varistor (MOV) product line. Testing shows the 570 SPD is particularly effective at mitigating high events beyond 20,000 amps, making it the ideal choice for high-risk locations; areas where we would expect to see the highest energy levels. 570 570 SPD specifications and ordering information are located on pages 14-15. Recommended for HIGH-RISK Locations Comparison MOV vs SAD/MOV Hybrid The graph below represents a transient response performance comparison of differing technologies. The hybrid technology clearly demonstrates an advantage over the MOV only technology; with approximately a 10% improvement as the energy levels increase. This could equate to a difference of several hundred volts during high energy events. C L A M P I N G V O L T A G E 680 660 640 620 600 580 560 540 520 500 480 460 440 420 400 380 360 340 320 300 ü MOV Only Hybrid SAD/MOV 15 12 3 4 0 20 59 106 15 20 00 50 900 660 140 640 3 24 4 2 4 60 00 100 51 56 6 SURGE CURRENT LEVEL (Amps) 20 080 7 65 60 080 520 80 20 75 8 90 95 8 The BEST Transient Response 570 Advanced Hybrid Surge Suppression Technology The Emerson Answer 570 Hybrid Surge Current Sharing Data SAD Module MOV Module(s) 100.0 90.0 80.0 70.0 60.0 Percentage of Surge Current (%) A closely regulated amount of energy is transitioned between the primary SAD module and the secondary MOV module(s). The primary/secondary hybrid design takes advantage of the tight clamping and rapid response characteristics of the SADs while incorporating the high-energy handling characteristics of the MOV. This is accomplished through an impedance matching network utilizing a series of controlled copper geometries in conjunction with custom engineered highvoltage/high-energy component distribution. This ultimately limits the amount of high-energy surge current through the SAD module to an acceptable level and diverting the remaining surge current through the MOV module(s). Transitional Method 50.0 40.0 30.0 20.0 10.0 0.0 0 5,000 10,000 15,000 20,000 25,000 30,000 Total Surge Current (Amperes) Other “Hybrid” Products Fall Into One of Two Categories: •Self-sacrificing: This system significantly degrades or fails with nominal fluctuations or high-energy events. This design is extremely inconvenient to the customer, and more importantly, it leaves an opportunity for critical load upsets/failures. •Oversize components: Higher rated components allow the system to survive nominal fluctuations or high-energy events–as a result clamping levels drastically increase and the level of protection decreases, defeating what it’s designed to do. 13 Surge Protection Product Specifications Specifications 570 Surge Protective Device Connection Type Agency Listings Maximum Continuous Operating Voltage Range Short Circuit Rating Maximum Surge Current Rating UL1449 Location Type UL 1449 Nominal Discharge Current (In) Operating Frequency Range 50 ohm EMI/RFI Attenuation Protection Modes General Specifications (All Models) Parallel Connected ANSI/UL 1449 Third Edition, UL 1283 (Type 2 Locations), cUL (Type 2 Locations), FCC Part 15 Class B 120VAC 125%, all others 115% Response Time Temperature Operating Humidity Enclosure Altitude Audible Noise Labor Warranty Parts Warranty 200kAIC 125kA-200kA per mode; 250kA-400kA per phase Type 1, Type 2 20kA 47 - 63 Hertz 63 dB max from 10kHz to 100MHz All applicable modes standard (Line to Neutral, Line to Ground, Neutral to Ground and Line to Line) Internal/External Status LEDs, Audible Alarm, Summary Alarm Contact (2 sets), Built-in-test circuit tests MOV/fuse array capacities, Phase loss indication, Low voltage indication, Loss of power indication, Surge counters. <0.5 nanoseconds -40 to +60 degrees C 0% to 95% noncondensing NEMA 4 0 to 18,000 feet Less than 45 dBa 5 Years on site labor 10 Years on all parts Connection Type Maximum Surge Current Capacity Short Circuit Current Rating (SCCR) Motorola R56 Unit Type Status Indication Enclosure Protection Mode Specifications (Motorola R56 Approved Models Only) Parallel Connected 160kA per mode / 160kA per phase 65kAIC Type 1 (SAD/MOV Hybrid) LEDs, Relay alarm contacts NEMA 4X L-N, L-L Monitoring Features UL 1449 Third Edition, Type 1 VPRs Source Configuration L-N L-G L-L N-G SA, YA 700 700 1000 700 YC 1000 1200 1800 1000 UL 1449 Third Edition, Type 1 VPRs (Motorola R56 Approved Models Only) Source Configuration L-N L-L SA, YA 700 1000 YC 1000 1800 Life Cycle Surge Testing (10kA, 20kV, IEEE Cat. C3) 14 Surge Rating Per Mode Per Phase 125kA 15,000 30,000 160kA-200kA Per Mode 30,000 60,000 570 Ordering Information Dimensional Data Ordering Information Model Number Source Configuration Surge Rating 570YA12ANCG1S 125kA Mode/250kA Phase 570YA12ARCG1S 120/208VAC, 127/220VAC 3 Phase, WYE, 4W+G (“YA”) 570YA16ANCG1S 570YA16ARCG1S 160kA Mode/320kA Phase 570YA20ANDG1S 200kA Mode/400kA Phase 570YA20ARDG1S 570YC12ANCG1S 125kA Mode/250kA Phase 570YC12ARCG1S 277/480VAC, 254/440VAC 3 Phase, WYE, 4W+G (“YC”) 570YC16ANCG1S 570YC16ARCG1S 160kA Mode/320kA Phase 570YC20ANDG1S 200kA Mode/400kA Phase 570YC20ARDG1S Connection Type Monitoring Option Wire Compression Lugs Counter Rotary Disconnect Switch Wire Compression Lugs Counter Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Dual Counter Wire Compression Lugs Counter Rotary Disconnect Switch Wire Compression Lugs Counter Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Dual Counter Consult Factory for additional source configurations, Surge Ratings, Monitoring Options, Enclosure Ratings, Etc. Monitoring Options: “Counter” = Red & Green LED’s, Surge Counter, Audible Alarm, Alarm Enable & Disable feature, 2 sets of Relay Alarm Contacts, Built-in-Test “Dual Counter” = Counter option plus Dual Surge Counter Ordering Information (Motorola R56 Approved Models) Model Number Source Configuration Surge Rating 570SA16AFNRJ1S 120/240VAC, 120/208VAC Single ‘Split’ Phase, 3W+G, (“SA”) 160kA Mode/160kA Phase 570YA16AFNRJ1S 120/208VAC, 127/220VAC 3 Phase, WYE, 4W+G, (“YA”) 160kA Mode/160kA Phase .44” [11.1] D Connection Type Monitoring Wire Compression Lugs Standard Wire Compression Lugs Standard 9.0” [229] Dimensional Data (Motorola R56 Approved Models Only) C Unit Weight 570SA16AFNRJ1S 28 lb. (12.7 kg) 570YA16AFNRJ1S 32 lb. (14.5 kg) A 13.34” [338.8] Monitoring 15.49” [393.4] 14.75” [374.7] B Dimensional Data Unit 125kA 160kA-200kA Connection Type AxB C D Weight Wire Lug (N) 16” x 12” (406 x 305) 17.25” (438) 9.5” (241) 35 lb. (15.9 kg) Disconnect (R) Wire Lug (N) 16” x 16” (406 x 406) 17.25” (438) 10” (254) 45 lb. (20.4 kg) Disconnect (R) 20” x 16” (508 x 406) 21.25” (540) 10” (254) 55 lb. (24.9 kg) 10” [254] .32” [8.1] 4x 7.96” [202.2] 15 Surge Protection Product Descriptions 560 Surge Protective Device Proven Performance Fusing Repetitive life cycle capability, high-energy capacity and years of proven field experience allow us to confidently recommend the Emerson Network Power 560 Series surge protective device for any “HIGH-RISK” location or “CRITICAL” process. It all starts with our patented fuse technology. Component level fuse arrays have been the core of our design advantage for more than 15 years; consistently exceeding industry safety and performance levels. 560 SPD specifications and ordering information are located on pages 18-19. •Coordinated Surge Path — the surge path between the suppression element and the fuse ensure the array can deliver its rated surge performance without interruption to the link. •Fault Tested Array — the fuse/surge array is designed to quickly and safely open in the case of both limited and high current fault conditions. •Balanced Configuration — placement of the fuse link and surge components in a custom engineered geometrical pattern serve to balance the array, resulting in improved repetitive capability and an over-voltage withstand that’s unmatched in the surge protection industry. 560 Fuse/Surge Array Recommended for CRITICAL Locations 560 Series Module 16 560 Testing the Limits...Emerson Network Power’s state-of-the-art surge protection test lab in Binghamton, NY Surge Current Real world events look a little different than what’s simulated in a controlled lab setting. An 8x20µs waveform is a nice place to start when testing a surge protector, but in reality, impulse levels and waveform characteristics are diverse. Factors such as the magnitude of the event, the number of impulses in the event and the proximity of the event to your system, all impact what the surge protective device will actually experience when installed. We put the design of our Emerson Network Power 560 surge protective device to the test by subjecting it to a wide variety of impulse characteristics and levels; testing the limits and longevity of the design. Survivability To ensure our 560 surge protective device is ready for your harshest environments, we tested it to multiple waveforms, multiple times and at the highest rated levels: •Endurance Testing — Minimum of 15,000 impulses per module at 20,000 volts and 10,000 Amps •Waveforms — Long duration (10x350µs) representing a close strike and shorter duration (8x20µs) representing an indirect impulse is applied at a variety of levels. •High-Energy Testing — Testing conducted on the complete unit – including fuse elements, and accessories such as disconnects and monitoring boards. The entire product withstands and performs multiple times at its highest rated level. We put the design of our Emerson Network Power 560 surge protective device to the test by subjecting it to a wide variety of impulse characteristics and levels; testing the limits and longevity of the design. 17 Surge Protection Product Specifications Specifications 560 Surge Protective Device Connection Type Agency Listings Maximum Continuous Operating Voltage Range Maximum Surge Current Rating Short Circuit Rating UL 1449 Location Type UL 1449 Nominal Discharge Current (In) Operating Frequency Range 50 ohm EMI/RFI Attenuation Protection Modes Monitoring Features Response Time Temperature Operating Humidity Enclosure Altitude Audible Noise Labor Warranty Parts Warranty Connection Type Maximum Surge Current Capacity Short Circuit Current Rating (SCCR) Motorola R56 Unit Type Status Indication Enclosure Protection Mode General Specifications (All Models) Parallel Connected ANSI/UL 1449 Third Edition, UL 1283 (Type 2 Locations), cUL (Type 2 Locations), FCC Part 15 Class B 120VAC 125%, all others 115% 80kA-375kA per mode; 160kA-750kA per phase 200kAIC Type 1, Type 2 20kA 47 - 63 Hertz 63 dB max from 10kHz to 100MHz All applicable modes standard (Line to Neutral, Line to Ground, Neutral to Ground and Line to Line) Internal/External Status LEDs, Audible Alarm, Summary Alarm Contact (2 sets), Built-in-test circuit tests MOV/fuse array capacities, Phase loss indication, Low voltage indication, Loss of power indication, Surge counters (optional) <0.5 nanoseconds -40 to +60 degrees C 0% to 95% noncondensing NEMA 4 0 to 18,000 feet Less than 45 dBa 5 Years on site labor 10 Years on all parts General Specifications (Motorola R56 Approved Models Only) Parallel Connected 160kA per mode / 160kA per phase 65kAIC Type 2 (MOV only) LEDs, Relay alarm contacts NEMA 4X L-N, L-L UL 1449 Third Edition, Type 1 VPRs Source Configuration L-N L-G L-L N-G YA 700 700 1000 700 YC 1000 1200 1800 1000 Life Cycle Surge Testing (10kA, 20kV, IEEE Cat. C3) 18 Surge Rating Per Mode Per Phase 80kA-125kA Per Mode 15,000 30,000 160kA-200kA Per Mode 30,000 60,000 375kA Per Mode 45,000 90,000 UL 1449 Third Edition, Type 1 VPRs (Motorola R56 Approved Models Only) Source Configuration L-N L-L SA, YA 700 1000 YC 1000 1800 **Source Configuration Chart A (“xx”) 120/208VAC, 127/220VAC 3 Phase, Wye, 4W+G 277/480VAC, 254/440VAC 3 Phase, Wye, 4W+G 480VAC 3 Phase, Delta, 3W+G (“YA”) (“YC”) (“DF”) 560 Ordering Information Dimensional Data Ordering Information Model Number Source Configuration (“xx”) 560xx08ANAG1S 560xx08ARAG1S 560xx08ANCG1S 560xx08ARCG1S 560xx12ANAG1S 560xx12ARAG1S 560xx12ANCG1S 560xx12ARCG1S 560xx16ANAG1S 560xx16ARAG1S 560xx16ARCG1S 560xx16ARCG1S 560xx20ANDG1S 560xx20ARDG1S 560xx25ARDG1S 560xx37ARDG1S See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 See Chart A, page 18 Surge Rating 80kA Mode/160kA Phase 125kA Mode/250kA Phase 160kA Mode/320kA Phase 200kA Mode/400kA Phase 250kA Mode/500kA Phase 375kA Mode/750kA Phase Connection Type Monitoring Option Wire Compression Lugs Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Standard Standard Counter Counter Standard Standard Counter Counter Standard Standard Counter Counter Dual Counter Dual Counter Dual Counter Dual Counter Consult Factory for additional source configurations, Surge Ratings, Monitoring Options, Enclosure Ratings, Etc. Monitoring Options: “Standard” = Red & Green LED’s, Audible Alarm, Alarm Enable & Disable feature, 2 sets of Relay Alarm Contacts, Built-in-Test “Counter” = Standard option plus Surge Counter “Dual Counter” = Standard option plus Dual Surge/Swell Counter Ordering Information (Motorola R56 Approved Models) Model Number 560SA16AFNRJ1S 560YA16AFNRJ1S Source Configuration Surge Rating Connection Type Monitoring 120/240VAC, 120/208VAC Single ‘Split’ Phase, 3W+G, (“SA”) 120/208VAC, 127/220VAC 3 Phase, WYE, 4W+G, (“YA”) 160kA Mode/160kA Phase Wire Compression Lugs Standard 160kA Mode/160kA Phase Wire Compression Lugs Standard .44” [11.1] D 9.0” [229] Dimensional Data (Motorola R56 Approved Models Only) C Unit Weight 560SA16AFNRJ1S 24 lb. (12.7 kg) 560YA16AFNRJ1S 28 lb. (14.5 kg) A 13.34” [338.8] Monitoring 15.49” [393.4] 14.75” [374.7] B Dimensional Data Surge Rating Connection Type 08-12 Wire Lug (N) 16-25 Disconnect (R) Wire Lug (N) Disconnect (R) Wire Lug (N) 37 Disconnect (R) AxB 16” x 12” (406 x 305) 16” x 16” (406 x 406) C 17.25” (438) 17.25” (438) D 9.5” (241) 10” (254) Weight 35 lb. (15.9 kg) 45 lb. (20.4 kg) 20” x 16” (508 x 406) 20” x 20” (508 x 508) 21.25” (540) 21.25” (540) 10” (254) 14” (356) 55 lb. (24.9 kg) 85 lb. (38.6 kg) 10” [254] .32” [8.1] 4x 7.96” [202.2] 19 Surge Protection Product Descriptions 510 Surge Protective Device The Emerson Network Power 510 is a multi-phase, multi-mode surge protector, which incorporates the same fuse/surge array design philosophy as the 570 and 560 products. A coordinated, multi-component/ multi-fuse approach is the key to addressing even the harshest conditions. With a short circuit rating of 200,000 AIC, a UL 1449 Type 1 rating, along with a myriad of enclosure and surge levels; the 510 can be placed on any panel within your facility, making it the ideal choice for cascaded applications. 510 SPD specifications and ordering information are located on pages 22-23. Protection Redundancy – Cascaded Surge Protection In engineering, redundancy is the duplication of critical components or functions of a system with the intent of increasing reliability of the system – usually in the form of back-up. IEEE encourages protection redundancy by cascading multiple surge protection devices throughout a facility. Emerson Network Power carries this recommendation to the product level with built-in redundant features; including multiple surge arrays which consist of multiple surge components. Not only will your facility be fully or “redundantly” protected, but the SPD itself is designed with redundancy in mind. This Strategy is as Easy as… 1. Cascade multiple surge protective devices throughout your facility Make sure it’s the Emerson Network 500 Series with… 2. Multiple surge arrays within each SPD 3. Multiple fuse/surge components placed within 510 IEEE Recommends CASCADING Surge Protection 20 each SPD array 510 Protection Redundancy Explained Facility-Wide Protection Redundancy 1 Cascade surge protection throughout your facility. Place high-capacity SPDs at your high-risk locations, followed by protection at downstream electrical panels. The SPD – Redundant Surge Arrays 2 We carry the cascaded concept into our surge design by using multiple surge modules within our SPD. Redundancy Component Level 3 The Purpose… Mitigate the initial impulse and clamp in stages as the transient works its way through the electrical system towards your critical loads. Our individual component level fuse design is the key to addressing high surge levels. Each fuse link can be coordinated with the requirements of the individual component – sized to handle the surge yet disconnect immediately in case of a fault. Having multiple components in an array and multiple arrays in a device not only allows the surge protection levels to expand while maintaining the safety, but it also provides “Protection Redundancy”. 21 Surge Protection Product Specifications Specifications 510 Surge Protective Device Connection Type Agency Listings Maximum Continuous Operating Voltage Range Maximum Surge Current Rating UL 1449 Short Circuit Rating UL 1449 Location Type Nominal Discharge Current (In) Operating Frequency Range 50 ohm EMI/RFI Attenuation Protection Modes Monitoring Features Response Time Temperature Operating Humidity Status Indication Enclosure Altitude Audible Noise Parts Warranty General Specifications Parallel Connected ANSI/UL 1449 Third Edition, UL 1283 (Type 2 Locations), cUL (Type 2 Locations) 120VAC 125%, all others 115% 65kA-200kA per mode; 130kA-400kA per phase 200kAIC Type 1, Type 2 20kA 47 - 63 Hertz 63 dB max from 10kHz to 100MHz All applicable modes standard (Line to Neutral, Line to Ground, Neutral to Ground and Line to Line) Internal/External Status LEDs, Audible Alarm, Summary Alarm Contact, Built-in-test circuit tests MOV/fuse array capacities, Phase loss indication, Low voltage indication, Loss of power indication, Surge counter (optional) <0.5 nanoseconds -40 to +60 degrees C 0% to 95% non-condensing LEDs, Relay Alarm Contacts, Audible Alarm NEMA 4X, 12, 1 0 to 18,000 feet Less than 45 dBa 10 Years on all parts Dimensional Data u v NEMA 4X (Non-Metallic) Enclosure 3.09” [78.44] 7.37” [187.32] 6.88” [174.70] NEMA 12 (Metallic) Enclosure Surge Rating (2) AxBxC D E F Weight 06, 08 16” x 14” x 8” (406 x 356 x 203) 16.75” (425.5) 12” (304.8) 0.31” (7.9) 32 lb. (14.5 kg) 10, 12, 16 16” x 14” x 8” (406 x 356 x 203) 16.75” (425.5) 12” (304.8) 0.31” (7.9) 41 lb. (18.6 kg) 20, 25 20” x 16” x 9” (508 x 406 x 229) 21.25” (539.8) 10” (254) 0.44” (11.2 56 lb. (25.4 kg) 1.35” [34.03] E 4.35” [110.49] D 7.87” max A 4.75” [120.72] 22 B F C 510 Ordering Information Ordering Information Model Number Source Configuration (“xx”) Surge Rating Connection Type Monitoring Option NEMA 4X (Non-Metallic) Enclosure (See dimensional data u on page 22) 510xx06ANAJ1S 510xx06ANAJ2S 510xx08ANAJ1S 510xx08ANAJ2S See Chart A Below 65kA Mode/ 130kA Phase Wire Compression Lugs Standard See Chart A Below 80kA Mode/ 160kA Phase Wire Compression Lugs Standard NEMA 12 (Metallic) Enclosure (See dimensional data v on page 22) Wire Compression Lugs Counter Rotary Disconnect Switch Standard 510xx06ARCL1S Rotary Disconnect Switch Counter 510xx08ANCL1S Wire Compression Lugs Counter Rotary Disconnect Switch Standard 510xx08ARCL1S Rotary Disconnect Switch Counter 510xx10ANAL1S Wire Compression Lugs Standard 510xx10ANCL1S Wire Compression Lugs Counter Rotary Disconnect Switch Standard 510xx06ANCL1S 510xx06ARAL1S 510xx08ARAL1S 510xx10ARAL1S See Chart A Below See Chart A Below See Chart A Below 65kA Mode/ 130kA Phase 80kA Mode/ 160kA Phase 100kA Mode/ 200kA Phase 510xx10ARCL1S Rotary Disconnect Switch Counter 510xx12ANAL1S Wire Compression Lugs Standard Wire Compression Lugs Counter Rotary Disconnect Switch Standard 510xx12ANCL1S 510xx12ARAL1S See Chart A Below 125kA Mode/ 250kA Phase 510xx12ARCL1S Rotary Disconnect Switch Counter 510xx16ANAL1S Wire Compression Lugs Standard Wire Compression Lugs Counter Rotary Disconnect Switch Standard 510xx16ARCL1S Rotary Disconnect Switch Counter 510xx20ANCL1S Wire Compression Lugs 510xx16ANCL1S 510xx16ARAL1S 510xx20ARCL1S 510xx25ANCL1S 510xx25ARCL1S See Chart A Below 160kA Mode/ 320kA Phase See Chart A Below 200kA Mode/ 400kA Phase See Chart A Below 250kA Mode/ 500kA Phase Rotary Disconnect Switch Wire Compression Lugs Rotary Disconnect Switch Counter Counter NEMA 1 Panelboard Extension (Surface Mount Trim), (Dimensional data not shown) 510xx06ANRS2S 510xx06ANCS2S 510xx08ANRS2S 510xx08ANCS2S See Chart A Below See Chart A Below 65kA Mode/ 130kA Phase 80kA Mode/ 160kA Phase Rotary Disconnect Switch Standard Wire Compression Lugs Counter Rotary Disconnect Switch Standard Wire Compression Lugs Counter NEMA 1 Panelboard Extension (Flush Mount Trim), (Dimensional data not shown) 510xx06ANRF2S 510xx06ANCF2S 510xx08ANRF2S 510xx08ANCF2S See Chart A Below See Chart A Below 65kA Mode/ 130kA Phase 80kA Mode/ 160kA Phase Rotary Disconnect Switch Standard Wire Compression Lugs Counter Rotary Disconnect Switch Standard Wire Compression Lugs Counter **Source Configuration Chart A (“xx”) 120/240VAC, 120/208VAC, Single “Split” Phase, 3W+G (“SA”) 120/208VAC, 127/220VAC, 3 Phase, Wye, 4W+G (“YA”) 208VAC, 240VAC, 3 Phase, Delta, 3W+G (“DB”) 277/480VAC, 254/440VAC, 3 Phase, Wye, 4W+G (“YC”) 480VAC, 3 Phase, Delta, 3W+G (“DF”) Consult Factory for additional source configurations, Surge Ratings, Monitoring Options, Enclosure Ratings, Etc. 23 Surge Protection Product Descriptions 440 Surge Protective Device High Capacity/Non-Modular Surge Protection Solutions Electrical power line disturbances such as high voltage transients can disrupt or damage sensitive electronic equipment – causing lost productivity and revenue. The Emerson Network Power 440 surge protectors offer a reliable way to keep the power problems from reaching your critical loads. At A Glance •Thermally Protected — metal oxide varistor (MOV) technology •Surge Current Rating — of 100kA/mode, 200kA/ phase or 160kA/mode, 320kA/phase •All Modes of Protection — including L-L, L-N, L-G, N-G •Status Monitoring — including LEDs, audible alarm and relay contacts •Short Circuit Current Rating — 200kAIC •UL — Type 1 or 2, 1449/1283, In 20kA •NEMA 4X — rated enclosure 440 •Optional — metal enclosure •ANSI/IEEE — C62.11, C62.41, C62.45 categories A, B, C3 tested •IEC — 61643-11 class I •CE — compliant •5 Year Warranty Recommended for HIGH-RISK Locations 24 440 Ordering Information Specifications Dimensional Data General Specifications Parallel Connected 120VAC 125%, all others 115% 200kAIC All Possible Modes including (L-N, L-G, N-G, L-L) 47-63Hz Type 1 / Type 2 20kA Green/Red LED, Audible Alarm, Relay Alarm Contacts NEMA Type 4X (Plastic) 40dB Max ANSI/UL 1449, 1283 Third Edition Type 1 or Type 2; cUL (ROHS Compliant), IEC, CE 5 Years Connection Type Maximum Continuous Operating Voltage Range Short Circuit Current Rating (SCCR) Protection Modes Operating Frequency Range UL 1449 Location Type UL 1449 Nominal Discharge Current (In) Status Indication Standard Enclosure 50 ohm EMI/RFI Attenuation Certifications Warranty Ordering Information Model Number 440SA10ANAJ1S 440YA10ANAJ1S 440YC10ANAJ1S 440YD10ANAJ2S 440DB10ANAJ1S 440DF10ANAJ1S 440DG10ANAJ2S 440SA16ANAJ1S 440YA16ANAJ1S 440YC16ANAJ1S 440YD16ANAJ2S 440DB16ANAJ1S 440DF16ANAJ1S 440DG16ANAJ2S Source Configuration Surge Rating "SA" 120/240VAC, 120/208VAC Single "Split" Phase, 3W+G "YA" 120/208VAC, 127/220VAC 3 Phase, Wye, 4W+G "YC" 277/480VAC, 254/440VAC 3 Phase, Wye, 4W+G "YD" 346/600VAC3 Phase, Wye, 4W+G 100kA/ Mode, 200kA/ Phase "DB" 240VAC 3 Phase, Delta, 3W+G "DF" 480VAC 3 Phase, Delta, 3W+G "DG" 600VAC 3 Phase, Delta, 3W+G "SA" 120/240VAC, 120/208VAC Single "Split" Phase, 3W+G "YA" 120/208VAC, 127/220VAC 3 Phase, Wye, 4W+G "YC" 277/480VAC, 254/440VAC 3 Phase, Wye, 4W+G "YD" 346/600VAC3 Phase, Wye, 4W+G 160kA/ Mode, 320kA/ Phase "DB" 240VAC 3 Phase, Delta, 3W+G "DF" 480VAC 3 Phase, Delta, 3W+G "DG" 600VAC 3 Phase, Delta, 3W+G Consult Factory for additional source configurations, Surge Ratings, Monitoring Options, Enclosure Ratings, Etc. A ANSI/UL 1449 Third Edition, Type 1 VPR’s Source Configuration SA, YA YC YD DB DF DG L-N L-G L-L N-G 800V 1200V 1500V N/A N/A N/A 800V 1200V 1500V 1200V 1800V 2000V 1200V 2000V 2500V 2000V 2000V 3000V 800V 1200V 1500V N/A N/A N/A UL Location Type Type 1 Type 1 Type 1 Type 2 Type 1 Type 1 Type 2 Type 1 Type 1 Type 1 Type 2 Type 1 Type 1 Type 2 .18 [5] 1/2 NPT FLEXIBLE CONDUIT AND CONNECTOR ASSEMBLY INCLUDED, 24” LONG. 4. [1 B Dimensional Data Surge Rating A B C 100kA Mode 200kA Phase 7.1 [180] 5.1 [130] 2.6 [65] 160kA Mode 320kA Phase 9.6 [244] 4.9 [124] 3.2 [81] 4.0” [102] 4. [1 2.0” [52] C 25 Surge Protection Product Descriptions 420 Surge Protective Device Compact Surge Protection Solutions Electrical power line disturbances such as high voltage transients can disrupt or damage sensitive electronic equipment – causing lost productivity and revenue. The Emerson Network Power 420 surge protectors offer a reliable way to keep the power problems from reaching your critical loads. Ideal for applications where space is limited or installed directly at protected equipment. At A Glance •Thermally Protected — metal oxide varistor (MOV) technology •Surge Current Rating — of 50kA/mode, 50kA/phase or 50kA/mode, 100kA/phase •All Modes of Protection — or reduced mode of protection design •Status Monitoring — including LEDs, audible alarm and relay contacts •Short Circuit Current Rating — 200kAIC •UL — Type 1, In 20kA •NEMA 4X — rated enclosure 420 •ANSI/IEEE — C62.11, C62.41, C62.45 categories A, B, C3 tested •IEC — 61643-11 class I •CE — compliant •5 Year Warranty Recommended for HIGH-RISK Locations 26 420 Ordering Information Specifications Dimensional Data General Specifications Parallel Connected 120VAC 125%, all others 115% 200kAIC 50kA per Mode 47-63Hz Type 1 / Type 2 20kA Green/Red LED, Relay Alarm Contacts NEMA Type 4X “A”: 1.9 lbs (.86 kg), “B” & “E”: 1.2 lbs (.54 kg) ANSI/UL 1449 Third Edition Type 1 or Type 2; cUL (ROHS Compliant), IEC, CE 5 Year Replacement Connection Type Maximum Continuous Operating Voltage Range Short Circuit Current Rating (SCCR) Maximum Surge Current Rating Operating Frequency Range UL 1449 Location Type UL 1449 Nominal Discharge Current (In) Status Indication Standard Enclosure Weights Certifications Warranty Ordering Information Surge Rating Modes of Protection UL Location Type Monitoring Option Type 1 A Type 1 A 50kA Mode 100kA Phase “A” – All Possible Modes (L-N, L-G, N-G, L-L) “A” – All Possible Modes (L-N, L-G, N-G, L-L) “A” – All Possible Modes (L-N, L-G, N-G, L-L) “A” – All Possible Modes (L-N, L-G, N-G, L-L) “A” – All Possible Modes (L-G, L-L) “A” – All Possible Modes (L-G, L-L) “A” – All Possible Modes (L-G, L-L) Type 1 A Type 2 A “DB” - 240VAC, Three Phase DELTA, 3W+G Type 1 “DF” - 480VAC, Three Phase DELTA, 3W+G Type 1 “DG” - 600VAC, Three Phase DELTA, 3W+G Type 2 “SA” - 120/240VAC, 120/208VAC, “B” – (L-N, N-G, L-L) Type 1 Single Split Phase, 3W+G “YA” - 120/208VAC, 127/220VAC, “B” – (L-N, N-G, L-L) Type 1 Three Phase WYE, 4W+G “YC” - 277/480VAC, 254/440VAC, 50kA Mode “B” – (L-N, N-G, L-L) Type 1 Three Phase WYE, 4W+G 50kA Phase “YD” - 346/600VAC, Three Phase WYE, 4W+G “B” – (L-N, N-G, L-L) Type 2 “DB” - 240VAC, Three Phase DELTA, 3W “E” – (L-L) Type 1 “DF” - 480VAC, Three Phase DELTA, 3W “E” – (L-L) Type 1 “DG” - 600VAC, Three Phase DELTA, 3W “E” – (L-L) Type 2 Consult Factory for additional source configurations, Surge Ratings, Monitoring Options, Enclosure Ratings, Etc. Monitoring Options: R = LED’s, Relay Alarm Contacts, A = LED’s, Relay Alarm Contacts, Audible Alarm A A A Model Number Source Configuration 420SA05AWAJ1S “SA” - 120/240VAC, 120/208VAC, Single Split Phase, 3W+G “YA” - 120/208VAC, 127/220VAC, Three Phase WYE, 4W+G “YC” - 277/480VAC, 254/440VAC, Three Phase WYE, 4W+G 420YA05AWAJ1S 420YC05AWAJ1S 420YD05AWAJ2S “YD” - 346/600VAC, Three Phase WYE, 4W+G 420DB05AWAJ1S 420DF05AWAJ1S 420DG05AWAJ2S 420SA05BWRJ1S 420YA05BWRJ1S 420YC05BWRJ1S 420YD05BWRJ2S 420DB05EWRJ1S 420DF05EWRJ1S 420DG05EWRJ2S R R R R R R R ANSI/UL 1449 Third Edition, Type 1 VPR’s L-N Source Configuration SA, YA YC YD DB DF DG A 700V 1200V 1500V N/A N/A N/A C L-G B,E 700V 1200V 1500V N/A N/A N/A .17” [4.2] 4x A 700V 1200V 1500V 1200V 1800V 2000V L-L B,E 1200V 2500V 3000V N/A N/A N/A A 1200V 2000V 2500V 1200V 2500V 2500V 3.35” [85.0] 2.05” [52.1] B A 700V 1200V 1500V N/A N/A N/A B,E 700V 1200V 1500V N/A N/A N/A Dimensional Data 1/2” NPT CONDUIT 1.97” [50.0] A N-G B,E 1200V 2500V 2500V 1200V 2500V 2500V 1/2 NPT FLEXIBLE CONDUIT AND CONNECTOR ASSEMBLY INCLUDED, 12” LONG Surge Rating A B C Weight 50kA Mode 100kA Phase 6.30 [160] 8.04 [204.2] 5.83 [148.0] 1.9 lbs [.86kg] 50kA Mode 50kA Phase 3.24 [82.2 5.00 [126.9] 2.76 [70.0] 1.2 lbs [.54kg] 27 Surge Protection Product Descriptions 330 Surge Protective Device Medium Exposure Surge Protection The Emerson Network Power 330 offers protection from transients on distribution panels or any medium exposure locations. Available in 50kA/mode, 100kA/ phase or 80kA/mode, 160kA/phase. The 330 features a small footprint, NEMA 12 enclosure, silver link fusing with thermal protection, all voltage and phase configurations, along with a 5 year warranty. At A Glance •Thermally Protected — metal oxide varistor (MOV) technology •Surge Current Rating — of 50kA/mode, 100kA/phase or 80kA/mode, 160kA/phase •All Modes of Protection — including L-L, L-N, L-G, N-G •Status Monitoring — including LEDs, and relay alarm contacts •Short Circuit Current Rating — 65kAIC •UL — Type 2, In 10kA or 3kA •NEMA 12 — rated enclosure •ANSI/IEEE — C62.11, C62.41, C62.45 categories A, B, C3 tested •5 Year Warranty 330 IEEE Recommends CASCADING Surge Protection 28 330 Ordering Information Specifications Connection Type Maximum Continuous Operating Voltage Range Short Circuit Current Rating (SCCR) Maximum Surge Current Rating Operating Frequency Range EMI/RFI Noise Rejection UL 1449 Location Type UL 1449 Nominal Discharge Current (In) Connection Type Status Indication Standard Enclosure Certifications Warranty Dimensional Data General Specifications Parallel Connected 120VAC 125%, all others 115% 65kAIC 50kA-80kA per mode; 100kA-160kA per phase 47-63Hz 40dB Max Type 2 3kA (50kA unit) ,10kA (80kA unit) (50kA unit) #12 Wire Leads, 18” Long; (80kA unit) #10 Wire Leads, 24” Long Green & Red LED’s, Relay Alarm Contacts NEMA Type 12 ANSI/UL 1449 Third Edition Type 2; cUL 5 Year Replacement Ordering Information Model Number 330SA05AWRL2S 330YA05AWRL2S 330YC05AWRL2S 330DB05AWRL2S 330DF05AWRL2S 330SA08AWRL2S 330YA08AWRL2S 330YC08AWRL2S 330DB08AWRL2S 330DF08AWRL2S Source Configuration Surge Rating “SA” = 120/240VAC, 120/208VAC, Single Split Phase, 3W+G “YA” = 120/208VAC, 127/220VAC, 3 Phase WYE, 4W+G “YC” = 277/480VAC, 254/440VAC, 3 Phase WYE, 4W+G “DB” = 240VAC, 3 Phase Delta, 3W+G “DF” = 480VAC, 3 Phase Delta, 3W+G “SA” = 120/240VAC, 120/208VAC, Single Split Phase, 3W+G “YA” = 120/208VAC, 127/220VAC, 3 Phase WYE, 4W+G “YC” = 277/480VAC, 254/440VAC, 3 Phase WYE, 4W+G “DB” = 240VAC, 3 Phase Delta, 3W+G “DF” = 480VAC, 3 Phase Delta, 3W+G Consult Factory for additional source configurations, Surge Ratings, Monitoring Options, Enclosure Ratings, Etc. 50kA Mode 100kA Phase “05” 80kA Mode 160kA Phase “08” ANSI/UL 1449 Third Edition, Type 1 VPR’s L-N Source Configuration SA, YA YC DB DF 50kA 600V 1000V N/A N/A L-G 80kA 600V 1200V N/A N/A 50kA 700V 1000V 1200V 2000V L-L 80kA 600V 1200V 1000V 1800V 50kA 1000V 1800V 1000V 2000V N (wht) PH C (blk) GND (grn) PH B (blk) NO (yel) PH A (blk) NC (blu) 3.03” [76.84] F 80kA 600V 1200V N/A N/A 1/2” OFFSET CONDUIT NIPPLE 1.75” REF MAX [44.45] Surge Rating A B C Weight 50kA Mode/100kA Phase 6.00 [152.4] 8.25 [209.6] 4.00 [101.6] 6.95 [176.7] 3.23 [81.9] 3.78 [96.0] 10 lbs [4.5kg] 14 lbs [6.3kg] 80kA Mode/160kA Phase 50kA Mode/100kA Phase 4.0” 80kA Mode/160kA Phase [101.60] .10” [2.54] D A E B 50kA 700V 900V N/A N/A Dimensional Data COM (orn) .38” [9.53] N-G 80kA 900V 2000V 900V 1800V C D E F 6.75 [171.5] 8.75 [222.3] 2.00 [50.8] 4.00 [101.6] 0.31 Dia [8.0] 0.31 Dia [8.0] 10 lbs [4.5kg] 14 lbs [6.3kg] 3.20” [81.28] 29 Surge Protection Product Descriptions 320 Surge Protective Device Low Exposure Surge Protection Solutions The Emerson Network Power 320 is designed for use on branch panels or equipment in low exposure locations. Available in 25kA/mode, 25kA/phase or 25 kA/mode, 50kA/phase. The 320 features a small footprint, NEMA 1 enclosure, silver link fusing with thermal protection, all voltage and phase configurations, plus a 5 year warranty. At A Glance •Thermally Protected — metal oxide varistor (MOV) technology •Surge Current Rating — of 25kA/mode, 25kA/phase or 25kA/mode, 50kA/phase •All Modes of Protection — or reduced mode of protection design •Status Monitoring — including LEDs, and relay alarm contacts •Short Circuit Current Rating — 22kAIC •UL — Type 2, In 3kA •NEMA 1 — rated enclosure •ANSI/IEEE — C62.11, C62.41, C62.45 categories A, B tested •5 Year Warranty 320 IEEE Recommends CASCADING Surge Protection 30 320 Ordering Information Specifications Dimensional Data General Specifications Parallel Connected 120VAC 125%, all others 115% 22kAIC 25kA per mode 47-63Hz 40dB Max Type 2 3kA #12 Wire Leads, 18” Long Green LED, Relay Alarm Contacts NEMA Type 1, 94V-0 ANSI/UL 1449 Third Edition Type 2; cUL 5 Year Replacement Connection Type Maximum Continuous Operating Voltage Range Short Circuit Current Rating (SCCR) Maximum Surge Current Rating Operating Frequency Range EMI/RFI Noise Rejection UL 1449 Location Type UL 1449 Nominal Discharge Current (In) Connection Type Status Indication Standard Enclosure Certifications Warranty Ordering Information Model Number Source Configuration Surge Rating Modes of Protection 320SA02AWRC2S “SA” = 120/240VAC, 120/208VAC, Single Split Phase, 3W+G L-L, L-N, L-G, N-G All Possible Modes 25kA Mode 320YA02AWRC2S “YA” = 120/208VAC, 127/220VAC, 3 Phase WYE, 4W+G L-L, L-N, L-G, N-G All Possible Modes 50kA Phase 320YC02AWRC2S “YC” = 277/480VAC, 254/440VAC, 3 Phase WYE, 4W+G L-L, L-N, L-G, N-G All Possible Modes 320DB02AWRC2S “DB” = 240VAC, 3 Phase Delta, 3W+G L-L, L-G All Possible Modes 320DF02AWRC2S “DF” = 480VAC, 3 Phase Delta, 3W+G L-L, L-G All Possible Modes 320SA02BWRC2S “SA” = 120/240VAC, 120/208VAC, Single Split Phase, 3W+G L-L, L-N, N-G 320YA02BWRC2S “YA” = 120/208VAC, 127/220VAC, 3 Phase WYE, 4W+G L-L, L-N, N-G 25kA Mode 25kA Phase 320YC02BWRC2S “YC” = 277/480VAC, 254/440VAC, 3 Phase WYE, 4W+G L-L, L-N, N-G 320DB02EWRC2S “DB” = 240VAC, 3 Phase Delta, 3W+G L-L 320DF02EWRC2S “DF” = 480VAC, 3 Phase Delta, 3W+G L-L Consult Factory for additional source configurations, Surge Ratings, Monitoring Options, Enclosure Ratings, Etc. ANSI/UL 1449 Third Edition, Type 1 VPR’s Source Configuration SA, YA YC DB DF L-N B 700V 1200V N/A N/A L-G B,E 700V 1200V N/A N/A L-L B 700V 1200V 1200V 1800V B,E 1200V 2500V N/A N/A B 1200V 2000V 1200V 2500V N-G B,E 1200V 2500V 1200V 2500V B 700V 1200V N/A N/A B,E 700V 1200V N/A N/A N (wht) PH C (blk) GND (grn) PH B (blk) NO (yel) PH A (blk) NC (blu) COM (orn) .19” [4.8] 4x 1/2” OFFSET CONDUIT NIPPLE 5.70” [144.8] 5.25” [133.4] 3.50” [88.9] 4.70” [119.4] 3.00” [76.2] 2.40” [61.0] 31 Surge Protection Product Features Product Comparison Chart 500 Series Model Number 570 560 UL1449 Location Type 510 Type 1 or Type 2 UL 1449 Nominal Discharge Current UL Symmetrical Withstand Rating Surge Technology 510 20kA 200kAIC SAD/MOV MOV MOV MOV Surge Current Rating (Per Mode) 125kA-200kA 80kA-375kA 65kA-250kA 65kA-80kA Surge Current Rating (Per Phase) 250kA-400kA 160kA-750kA 130kA-500kA 130kA-160kA "Life Cycle Testing Repetitive C3 Impulses Survived" 15,000-45,000 per mode 15,000-45,000 per mode 8,000-24,000 per mode 8,000 per mode Fusing/Overcurrent Protection Enclosure Rating - Standard Redundant individually fused surge arrays providing industries highest levels of safety & performance "NEMA 4 Outdoor/Indoor" Connection Type "NEMA 4 Outdoor/Indoor" "NEMA 4X Outdoor/Indoor" Compression Lugs/Terminal Built-In Rotary Disconnect Switch Optional Audible Alarm Dry Contacts "NEMA 12 Indoor" N/A Standard x2 Sets Standard x2 Sets Standard Warranty x2 Sets Standard Standard 10 Years IEC61643 Tested N/A IEC61643-11 Class N/A Class I / II Nominal Discharge Current (In) N/A 20kA Maximum Discharge Current (Imax) N/A 50kA Enclosure Protection Rating (IP) N/A IP66 32 For assistance selecting the proper surge protective devices for your facility, call: 1-800-288-6169 500, 400, 300 Series 400 Series 440 300 Series 420 330 320 Type 1 or Type 2 Type 2 20kA 10kA or 3kA 3kA 200kAIC 65kAIC 22kAIC MOV MOV MOV MOV 160kA or 100kA 50kA 80kA or 50kA 25kA 320kA or 200kA 100kA or 50kA 160kA or 100kA 50kA or 25kA 7,000-10,500 per mode 3,500 per mode Thermally Protected MOV (TPMOV) Technology N/A Thermally Protected MOV Technology NEMA 4X Outdoor/Indoor NEMA 4X Outdoor/Indoor NEMA 12 Indoor NEMA 1 Indoor Compression Lugs/Terminal 12 AWG Wire Leads 24" Long 10/12 AWG Wire Leads 18" Long 12 AWG Wire Leads 18" Long Future Availability N/A Standard N/A Standard N/A Standard Standard 5 Years 5 Years IEC61643-11 IEC61643-11 N/A Class I / II Class II N/A 20kA 20kA N/A 100kA or 150kA 50kA N/A IP66/IP67 IP66/IP67 N/A OR, email: SurgeTech@Emerson.com. We’re here to help! 33 Ensuring The High Availability Of Mission-Critical Applications. Emerson Network Power, a business of Emerson (NYSE:EMR), is the global leader in enabling Business-Critical Continuity™ from grid to chip for telecommunication networks, data centers, health care, security industry and industrial facilities. Emerson Network Power provides innovative solutions and expertise in areas including AC and DC power and precision cooling systems, embedded computing and power, integrated racks and enclosures, power switching and controls, monitoring, and connectivity. Emerson Network Power Surge Protection 100 Emerson Parkway Binghamton, NY 13905 800 288 6169 Phone (U.S. & Canada Only) 607 721 8840 Phone (Outside U.S.) 607 722 8713 FAX While every precaution has been taken to ensure accuracy and completeness in this literature, Emerson Network Power assumes no responsibility, and disclaims all liability for damages resulting from use of this information or for any errors or omissions. © 2013 Emerson Network Power. All rights reserved throughout the world. Specifications subject to change without notice. All names referred to are trademarks or registered trademarks of their respective owners. SL-30120 (R0 4/13) Emerson Network Power. The global leader in enabling Business-Critical Continuity™. Printed in USA EmersonNetworkPower.com/surge AC Power Embedded Computing Infrastructure Management & Monitoring Precision Cooling Connectivity Embedded Power Outside Plant DC Power Industrial Power Power Switching & Controls Racks & Integrated Cabinets Services Business-Critical Continuity, Emerson Network Power and the Emerson Network Power logo are trademarks and service marks of Emerson Electric Co. ©2013 Emerson Electric Co.