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ALL PRODUCT BROCHURE AMETEK Solidstate Controls is a recognized leader in the manufacturing of industrial power equipment. We provide continuity of electrical power to businesses by designing industrial Uninterruptible Supply () systems, inverters, power conditioners, remote bypass switches and more. We've been customizing and manufacturing power solutions to meet the demands of the most rugged environments since 96. Our industrial markets include, but are not limited to, oil and gas, petrochemical, power generation, process industries, pipelines and nuclear. PROVIDING CONTINUITY OF ELECTRICAL POWER

PRODUCT OFFERINGS DPP/DPP DPP/DPP DPP/IEC DSE DPI/DPI INVERTER The Digital Process (DPP) Uninterruptible Supply () system from AMETEK Solidstate Controls is a true on-line, double conversion system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and industrial applications, the DPP systems utilize state of the art Pulse Width Modulation (PWM) technology. PWM incorporates high power IGBT semiconductors and digital control for enhanced communications, monitoring, control and diagnostics capabilities. Also essential to the DPP design is the use of fiber optic cables for control and communications; allowing for better isolation and faster, more accurate signals between processors. The DPP system also include an LCD panel and user-friendly touch screen display for the ultimate in user control. Industrial Pulse Width Modulated Uninterruptible Supply System DSS INVERTER DVS REGULATING TRANSFORMER ISN REGULATING TRANSFORMER BTECH S5 BATTERY MONITOR DPP SINGLE PHASE 5-00 kva DPP THREE PHASE 0-5 kva DPP/IEC The three phase Digital Process Uninterruptible Supply () system from AMETEK Solidstate Controls is a true on-line, double conversion system that provides continuous, clean, regulated power for critical AC loads and is IEC compliant. DCR BATTERY CHARGER FUSIBLE PANELBOARDS RIPPLE CHOKE FILTERS REMOTE MANUAL BYPASS SWITCHES The DPP is designed for process control and industrial applications and offers better isolation and faster, more accurate signals between processors. INTELLISHED SOFTWARE VIEW SOFTWARE NUCLEAR SERVICE Industrial Pulse Width Modulated Uninterruptible Supply System IEC Compliant THREE PHASE 0-5 kva ALL PRODUCT BROCHURE ALL PRODUCT BROCHURE

DSE DSS The DSE Uninterruptible Supply () system from AMETEK Solidstate Controls combines the best of both worlds: () The reliability and robust design of a Ferroresonant () The digital control and communications typically found only in Pulse Width Modulation products The DSE is a true on-line, double conversion system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and harsh industrial applications, the DSE combines digital control for enhanced communications, monitoring, control and diagnostics capabilities with proven ferroresonant transformer design. The DSE also includes the LCD panel and user-friendly touch screen display found in our Digital Process systems for the ultimate in user control. The DSS Inverter from AMETEK Solidstate Controls combines the best of both worlds: () The reliability and robust design of a Ferroresonant Inverter () The digital control and communications typically found only in Pulse Width Modulation (PWM) products The DSS is a true on-line inverter system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and harsh industrial applications, the DSS combines digital control for enhanced communications, monitoring, and diagnostics capabilities with proven ferroresonant transformer design. The DSS also includes the LCD panel and user-friendly touch screen display found in our Digital Process systems for the ultimate in user control. Digitally Controlled Ferroresonant Industrial Uninterruptible Supply System SINGLE PHASE - 50 kva Digitally Controlled Ferroresonant Industrial Inverter SINGLE PHASE - 50 kva DPI/DPI DVS The Digital Process Inverter (DPI) from AMETEK Solidstate Controls is a true on-line inverter system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and industrial applications, the DPI systems utilize state of the art Pulse Width Modulation (PWM) technology, incorporating high power IGBT semiconductors, and digital control for enhanced communications, monitoring, control and diagnostics capabilities. The DVS accommodates wide variations of incoming AC line voltage, while regulating and conditioning the AC output to preset limits. Suitable for harsh environments, the robust design utilizes a copper-wound, tripleshielded, low-impedance isolation transformer. The DVS incorporates state-of-the-art microprocessor technology and independent phase regulation engineered to eliminate voltage spikes and sags. Also essential to the DPI design is the use of fiber optic cables for control and communications; allowing for better isolation and faster, more accurate signals between processors. The DPI designs also include an LCD panel and user-friendly touch screen display for the ultimate in user control. Industrial Pulse Width Modulated Inverter DPI SINGLE PHASE 5-00 kva DPI THREE PHASE 0-5 kva Regulating Transformer SINGLE PHASE 5-5 kva THREE PHASE 0-5 kva 4 ALL PRODUCT BROCHURE ALL PRODUCT BROCHURE 5

ISN DCR The ISN Series Ferroresonant regulating transformers are housed in a single system enclosure. These units are designed to accept a widely varying AC input voltage, while simultaneously producing a well regulated, filtered AC output. ISN Series units feature the unique characteristic of being short circuit protected so that overloads and short circuits on the secondary side are not reflected back to the primary. The DCR from AMETEK Solidstate Controls is a microprocessorcontrolled, thyristor-based system designed for high-efficiency conversion of incoming commercial AC power to clean DC power. It is used for charging batteries while supplying power to continuous DC loads such as inverters. The rugged solid-state design utilizes SCR phase control to provide regulated, current-limited DC power. The DCR can operate with or without batteries and is intended for use in systems. The DCR can also be used as a stand-alone device for battery-charging-only applications. -Limited Regulating Transformer 7.5-00 kva Digital Battery Charger Systems THREE PHASE INPUT VOLTAGE: 08, 80, 480, 600 VAC AMPERAGE: - 60 A OUTPUT VOLTAGE: 0, 0, 0, 40 VDC Latest digital and power electronics technology Reliable industrial design; MTBF >05,000 hours User definable control and alarm set-points Simultaneous voltage and current readings CE safety and EMC standards compliant UL0 (UL, cul) Approved Vacuum impregnated magnetics, 00 C up to 95% BTECH S5 FUSIBLE PANELBOARDS The BTECH S5 Battery Validation System provides the most effective and reliable assurance that your system's batteries are functioning properly and are ready to perform in the event of a power outage. Unlike traditional periodic discharge testing, the BTECH S5 continuously monitors each individual battery unit. This gives more time to respond to failing batteries and to schedule the appropriate maintenance preventing the cost and lost revenue of system downtime caused by a power outage and battery plant failure. The accurate monitoring of BTECH S5 helps ensure that the battery condition is known so timely replacement of a failed battery or battery maintenance can be performed. When fast, reliable short circuit protection is the problem, the line of Fusible Panelboards from AMETEK Solidstate Controls is the right solution. Fusible Panelboards (FPB) from Solidstate Controls are designed especially for critical power distribution in Uninterruptible Supply system and inverter applications. They are the most reliable method to ensure that one faulted circuit will not cause any adverse affects on any other branches. BATTERY VALIDATION SYSTEM 6 ALL PRODUCT BROCHURE ALL PRODUCT BROCHURE 7

RIPPLE CHOKE FILTERS INTELLISHED AMETEK Solidstate Controls Ripple Choke Filters are designed to help reduce the AC ripple current kickback that exists in battery chargers, inverters and systems. This will help your batteries last longer, spare sensitive electronics the deterioration an excessive ripple current can cause and reduce electrical noise. Maintain control of the most complex remote pumping stations with state-of-the-art server control software. This enhanced Uninterruptible Supply () system software is designed to help operators maintain control of complex remote pumping stations. The software is equipped with the following capabilities: Control of up to four groups of four servers (6 total) Ability to shutdown servers in a predetermined order Ability to test server shutdown functionality from the Web interface Alerts based on customer preference Retrieves,000 Event Data Log over TCP/IP using a Web interface Total system time synchronization Network Time Protocol (NTP) RC Series SERVER CONTROL SOFTWARE RMBS/RMBS-T Remote Manual Bypass Switch with isolation transformer option SINGLE PHASE - 00 kva THREE PHASE 0-00 kva Solidstate Controls RMBS Series, Remote Manual Bypass Switch (RMBS) is a -position switch that allows for complete isolation of a or inverter in order to perform routine or emergency maintenance on the equipment. The RMBS-T unit includes an isolation transformer that isolates the bypass supply. Depending on your equipment line up and space constraints, you may consider combining your transformer and RMBS to create an all-in-one, consolidated unit. The load is temporarily transferred from the inverter () onto the bypass (alternate) AC power source. This makebefore-break switch is designed to transfer between two in-sync sources to enable a zero-break transfer in both directions, so there is no disruption of power to the connected load(s). VIEW REMOTE MONITORING SOFTWARE View remotely monitors your AMETEK Solidstate Controls digital inverter, charger/rectifier or Uninterruptible Supply () System, giving you a real-time view of the health and status of your power quality system. The user-friendly communication package operates as an interactive and secure web interface, monitoring multiple units from any web enabled device. View enhanced online capabilities include: Annunciation of system measurements and status on the Homepage or Web browser tab Extended data logging, including event description, time and date stamping and system readings Single-click navigation to user-configured alarms and system settings Report generation of Data Logs, Battery History Logs and Battery Test Logs Pause and Play capabilities to freeze momentary data Access to snapshots of all Data Log parameters 8 ALL PRODUCT BROCHURE ALL PRODUCT BROCHURE 9

NUCLEAR SERVICE OPTIONS The Nuclear Industry requires the most stringent process and quality control procedures. Due to the critical nature of these applications, AMETEK Solidstate Controls engineers our equipment for a 40-year design life. To ensure that this requirement is met, each piece of equipment undergoes rigorous environmental qualification, aging analysis, seismic qualification and testing in accordance with applicable IEEE and IEC standards. We can also provide Class E Safety Related product upgrades. More than 75% of the nuclear generating stations in the United States rely on our products to provide power protection for their critical plant control systems. We also have extensive experience in supplying power systems for nuclear facilities outside of the United States, including facilities in China, Mexico, South America and Europe. We offer start-up, preventative maintenance, product service training and managed inventory agreements for replacement parts. We are able to provide direct replacements for obsolete power equipment no longer manufactured or supported by the original suppliers. Our nuclear team offers a full range of design support and consulting services. To learn more about our Nuclear products, please contact us. AMETEK Solidstate Controls products are known for their high quality. To keep them running smoothly, do not trust the maintenance of them to just anyone. No one will have the in-depth knowledge and familiarity as we do. We care about our products and we provide superior service agreements that ensure your critical power equipment continuously functions as designed. We offer three levels of multi-year service agreements, designed to support our preventative maintenance schedules. General Services Basic CSA CSA+ Pre-Inspection Interview Annually Annually Annually Post-Inspection Interview Annually Annually Annually Detailed Service Report Annually Annually Annually /Inverter/Charger Services Basic CSA CSA+ Visual Inspection Annually Annually Annually Scheduled Parts Replacement Every 5 Years Annually Annually System Operational and Functional Testing Every 5 Years Annually Annually Infrared Scanning/Thermal Imaging Optional Annually Annually Battery Inspection & Continuity Test Basic CSA CSA+ Visual Inspection Annually Annually Annually Individual Cell Voltages Every 5 Years Annually Annually Continuity Test Every 5 Years Annually Annually Inter-cell resistance Optional Optional Annually Specific Gravity Optional Optional Annually System AC Load testing Optional Optional Annually Battery Capacitance Discharge Testing per IEEE Recommended Schedule Optional Optional Optional Parts and Service Coverage Basic CSA CSA+ Emergency Service Fee Waived Waived Waived Guaranteed Emergency Response Time Not Specified 7 Hours 4 Hours Minimum Repair Service Cost per Repair Trip Waived Waived Waived Parts Covered Under Warranty Only PM parts covered All Parts in System All Parts in System Transformers (Less than 0 years) No Coverage Covered Covered Travel and Living Expenses Billed at cost Covered Covered Labor Standard Rates Covered Covered Replacement System Manuals $50 each $75 each No Cost Financial Benefits Basic CSA CSA+ Spare Parts Discount 5% 5% 0% Annualized Pricing Included Included Included Discount on Training Seminars None 5% 50% CSA and CSA+ meet factory recommended guidelines for preventative maintenance System restored to safe and stable condition 0 ALL PRODUCT BROCHURE ALL PRODUCT BROCHURE

HOME WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Middle East Asia Pacific India Brazil Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS. REV 0/09 ALL PRODUCT BROCHURE

DPP/DPP DIGITAL PROCESS POWER Industrial Pulse Width Modulated Uninterruptible Supply System DPP SINGLE PHASE 5-00 kva DPP THREE PHASE 0-5 kva The Digital Process (DPP) Uninterruptible Supply () system from AMETEK Solidstate Controls is a true on-line, double conversion system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and industrial applications, the DPP systems utilize state of the art Pulse Width Modulation (PWM) technology. PWM incorporates high power IGBT semiconductors and digital control for enhanced communications, monitoring, control and diagnostics capabilities. Also essential to the DPP design is the use of fiber optic cables for control and communications; allowing for better isolation and faster, more accurate signals between processors. The DPP designs also include an LCD panel and user-friendly touch screen display for the ultimate in user control. True on-line, double conversion Provides continuous, clean, regulated power for critical AC loads High power IGBT semiconductors and digital control Fiber optic cables used for control and communications LCD panel and user-friendly touch screen display Digital Process has lower audible noise The Behind the Process Keypad Controls and Switches Float/Equalize Initialization with Light Battery Test Initialization Inverter to Load with Light Bypass to Load with Light Static Switch Reset Retransfer Latching Alarm Reset Audible Alarm Silence Display On Inverter Enable (On/Off) Switch *Standard LED Indicators: Normal and Trouble New Option! The Slimmer DPP Standard LCD Panel Indicators Equalize Time Remaining Charger Status (OK/Fail) Float/Equalize Status Inverter Status (OK/Fail) Synchronism Status (In/Out of Sync) Static Switch Position (Inverter or Bypass) Manual Bypass Position (Normal or Bypass) Bypass Status (OK/Fail) Our single phase DPP system is now available in a compact slimmer cabinet while maintaining the reliability and quality you expect from AMETEK. This is designed for off-shore platforms and space-sensitive applications. Save 8" in width and 8.5" in depth. The slimmer DPP offers the smallest footprint for industrial systems! Width 4" x Depth 7.5" x Height 79" PROCESSPOWER SYSTEM LCD AND TOUCH SCREEN USER PANEL Shown with optional indicator lights The slimmer DPP seamlessly connects with an optional remote manual bypass switch, which can either be mounted on a wall or paired with an isolation bypass transformer in a separate slimmer cabinet. These units are top cable entry only and come with a maintenance bypass switch. Input Parameters System Configuration AC Input Voltage 08, 480 VAC AC Input Breaker AC Input Phase Ø Bypass Input Breaker AC Input Frequency 60/50 Hz Battery Input Breaker AC Voltage Tolerance ± 0% Optional AC Output Breaker DC Bus Voltage 5, 40 VDC Optional AC Output Breaker Output Parameters Top-Cable Entry ONLY Output 5-0 kva 6 or -Pulse Rectifier/Charger Factor 0.8 Make-Before-Break Static Switch AC Output Voltage 0 VAC Optional Remote Manual Bypass Switch ( position) AC Output Phase Ø Manual Bypass Switch must be in external enclosure AC Output Frequency 60/50 Hz with this cabinet style

DPP Specifications 0.8 Load Factor at Rated kva 0 VDC (60 Lead Acid Battery Cells) AC Input/Freq. AC Amps per Phase Max DC AC Output Amps Cabinet Weight kva kw AC-DC DC-AC 480/60 08/60 80/50 @.75 VPC 0 0 40 lb kg DPP005-5 4 9% 87% 5 4 44 4 GTDX 765 47,40 DPP007-7.5 6 9% 87% 6 7 0 66 6 4 GTDX 90 4 5,05 DPP00-0 8 9% 87% 48 6 88 8 46 4 GTDX,00 499 6,807 DPP05-5 9% 87% 70 9 5 68 6 GTDX,00 590 0,0 DPP00-0 6 9% 87% 40 9 50 75 67 9 8 GTDX,500 680,88 DPP00-0 4 9% 87% 59 7 75 6 50 6 5 GTDX,950 885 9, DPP040-40 9% 87% 78 8 99 50 8 67 GTDX,050 90 5,76 DPP050-50 40 9% 87% 99 8 5 48 47 7 08 GTDX,50 975,0 0.8 Load Factor at Rated kva 40 VDC (0 Lead Acid Battery Cells) AC Input/Freq. AC Amps per Phase Max DC AC Output Amps Cabinet Weight kva kw AC-DC DC-AC 480/60 08/60 80/50 @.75 VPC 0 0 40 lb kg DPP00-0 4 9% 89% 58 4 7 8 50 6 5 GTDX,950 885 7,046 DPP040-40 94% 89% 76 76 97 7 8 67 GTDX,050 90,5 DPP050-50 40 94% 89% 96 0 4 47 7 08 GTDX,50 975 6,657 DPP060-60 48 94% 89% 9 76 5 57 500 7 50 GTDX,550,57,988 DPP080-80 64 94% 89% 5 5 9 4 667 64 GTDX,400,54 4,650 DPP00-00 80 94% 89% 9 44 4 48 8 455 47 GTDX 4,900,7 5,.0 Load Factor at Rated kva 0 VDC (60 Lead Acid Battery Cells) AC Input/Freq. AC Amps per Phase Max DC AC Output Amps Cabinet Weight kva kw AC-DC DC-AC 480/60 08/60 80/50 @.75 VPC 0 0 40 lb kg DPP005-5 5 9% 87% 5 5 0 55 4 GTDX 940 46 4,54 DPP007-7.5 7.5 9% 87% 0 47 6 8 6 4 GTDX,05 50 6,8 DPP00-0 0 9% 87% 0 70 9 09 8 45 4 GTDX,00 590 8,509 DPP05-5 5 9% 87% 40 9 5 64 5 68 6 GTDX,500 680,075 DPP00-0 0 9% 87% 60 9 76 9 67 9 8 GTDX,950 885 6,0 DPP00-0 0 9% 87% 8 87 0 8 50 6 5 GTDX,050 90 4,5 DPP040-40 40 9% 87% 99 8 5 48 8 67 GTDX,50 975,0.0 Load Factor at Rated kva 40 VDC (0 Lead Acid Battery Cells) AC Input/Freq. AC Amps per Phase Max DC AC Output Amps Cabinet Weight kva kw AC-DC DC-AC 480/60 08/60 80/50 @.75 VPC 0 0 40 lb kg DPP00-0 0 9% 89% 77 78 98 6 50 6 5 GTDX,050 90 9,99 DPP040-40 40 94% 89% 96 0 4 8 67 GTDX,50 975 6,657 DPP050-50 50 94% 89% 9 76 5 68 47 7 08 GTDX,550,57, DPP060-60 60 94% 89% 5 5 9 500 7 50 GTDX,400,54 9,985 Coding DD EE FF GG HH I J AC Input Volts (code) DC Bus Volts (code) AC Output Volts (code) Freq (code) Output Factor (code) Charger Design (code) Config Code (code) 08 (0) 0 () 0 () 60 (60) 0.8 (K) 6-Pulse (S) Float (F) 480 (48) 40 (4) 0 () 50 (50).0 (W) -Pulse (T) Parallel (P) 80 (8) 40 (4) 600 (60) Circuit Breakers are sized at a minimum of 5% of rated current. Cabinet Dimensions Inches Millimeters Unit weights correspond to a 60 Hz unit. Contact us for 50 Hz unit weight. A complete model number includes the AC input voltage, DC bus (link) voltage, AC output voltage, system frequency, output power factor, and configuration. To build a model number, use the code in the matrix shown above, following the example format: DPP00-DD-EE-FF- GG-H-I-J; where DD=AC Input Voltage; EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency; H=Output Factor ( K for 0.8; W for.0); I=6(S) or (T) Pulse Charger design; J= configuration ( F for Float, P for Parallel Redundant). H x W x D H x W x D For Example: A 0 kva with 480 VAC input; 0 VDC bus voltage; 0 VAC output; 60 Hz; 0.8 output power factor; 6 pulse charger; Float system would have the following model number: DPP00-48---60-K-S-F. For custom systems and for units which do not have a configurable model number, insert a C in the model number as follows: DPP00C Sizes are subject to change. Top mounted cooling fans require 0.5 in ( mm) additional height. Certain optional features and/or combinations may require larger cabinets. Heat Loss (BTU/ hr) Heat Loss (BTU/ hr) Heat Loss (BTU/ hr) Heat Loss (BTU/ hr) GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x,7 x 94 GTDX 79 x 86 x 6,007 x,84 x 94 GTDX 79 x 08 x 6,007 x,74 x 94 GTD5X 79 x 40 x 6,007 x,557 x 94 General Specifications Standard Features System Measurements (Displayed on LCD Panel) Total of Battery Discharges Total Operational Time on Batteries Average Time on Battery per Discharge Historical Min/Max Battery Voltage Recent Min/Max Battery Voltage Total Operation Time on Total Operation Time on Bypass Total Operation Time on Inverter Metering (Displayed on LCD Panel) DC Voltage DC Battery (+/-) AC Output Voltage AC Output AC Output Frequency Charger/Rectifier Output Battery Voltage (with Rectifier Configuration) Circuit Breakers AC Input (4 kaic, minimum) Battery Input (0 kaic, minimum) Bypass Input (4 kaic, minimum) Alarms - All displayed on LCD Alarm Panel with options for LEDs and Relays R = Red LED 4 A=Amber LED Y=Relay 5 (Opt #) Fan Failure R, Y (0) Charger Failure R, Y (69) Low DC Voltage R, Y () Low DC Disconnect R, Y (07) Battery Breaker Open R, Y (57) Battery Discharging R, Y (BDC) Bypass Supplying Load A, Y Over Temperature R, Y (0) ST/SW SCR Failure R, Y (SWF) Bypass Failure R, Y (BPF) Inverter Failure R, Y (58) IGBT Desaturation Overload Shutdown Retransfer Blocked System Diagnostics Displayed on LCD Alarm Panel Loss of System Communication(s) Supply Failure(s) Standard Relays The following alarms also include one set of normally open and normally closed relay contacts rated for 0 VAC at 8 amps (0 VDC at 8 amps; 5 V at 00 mil): Trouble (Summary), Bypass Supplying Load, Communications Failure (Summary) Applicable Standards, Codes and Regulations NEMA PE- ANSI ANSI/NFPA 70 IEEE UL/C-UL (UL778) Unit Manufactured in ISO900 Certified Facility General Specifications Optional Features Metering and System Measurements (Opt. #) Alarms (LCD) (Option #) AC Input (Voltage, Frequency, ) () Charger Overload (9) Bypass Input Frequency () Bypass Input Voltage () Output (kva, kw, Factor) (4) % Inverter Loading (5) Inverter Output Voltage (7) Circuit Breaker (Opt. #) 65 kaic AC Input and Bypass Input (8/85) Inverter Output (Non-Automatic) (7) AC Output (8) Battery High Interrupt Breaker (86) Miscellaneous (Opt. #) Rectifier Configuration (4) Charger Output Blocking Diode (9) Charger Output Ripple Filter (59) Latching Alarms (8) Lamp Test (5) ESI (Essential System Indicator) Panel () Alarm Test () Precharge Circuit () Emergency Off (9) 0% Spare Terminals (96) Drip Shield (65) Lifting Eye Bolts (05) Padlockable Circuit Breakers (9) PCB Confrormal Coating (7) Fungus and Moisture Proof (70) Parallel Redundant Configuration Pulse Charger (0% Reflected Harmonics) Remote External MBS Battery Charger/Rectifier AC Input Nominal Voltage 08, 80, 45, 480, 600 VAC Input Range ± 0% (- 5% without discharging) High DC Disconnect () Positive/Negative to Ground ( relays) () High/Low Bypass Source Voltage (7/6) High/Low AC Output Voltage (9/8) AC Failure (6) AC Output Overload (40) High/Low Inverter Output Voltage (4/4) Out-of-Sync (4) Inverter Fuse Blown (44) Inverter Off Frequency (45) Bypass Off Frequency (46) Battery Near Exhaustion (60) Low AC Input Voltage (68) High DC Voltage (5) MBS to Bypass (84) AC Input CB Open (0) Bypass Input CB Open (0) AC Output CB Open (04) High AC Input Voltage (4) Communications (Option #) Modbus RTU (RS485 Connection) (87) Ethernet Webpage (87) Modbus TCP (87) Consult Us for Additional Communications Options LED Indicators (Color) (Option #) In Sync (Green) (SNK) AC Input Available (Green) (4) Bypass Available (Green) (5) Inverter Available (Green) (47) Charger Available (Green) (8) 4 Additional LED Indicators ( green, 9 red allowed) 5 Additional Relay Contacts (Max of allowed) General Specifications Performance Static Switch Bypass Voltage 0, 0, 40 VAC Inversely paired set of SCRs (one set Switch Type per leg) Failure Mode Automatically fails to Bypass Frequency 50 or 60 Hz ± 5% DC Output Transfer Time Make Before Break DC Bus Voltage(s) 0, 0, 0, 40 and 60 VDC Sync Capture Range 0.5% to.5% Regulation ± % Ripple Voltage < % with battery connected Sized to recharge a 0 minute battery to 95% of its rated capacity Capacity within 8 hours, while simultaneously supplying power to a fully loaded inverter Float/Equalize ± 5% Adjustability Inverter DC Input Nominal Voltage 0 V/55 (96-8 VDC) Range/ #of Cells 0 V/60 (05-40 VDC) (Lead Calcium Type) 0 V/0 (9-56 VDC) 40 V/0 (0-80 VDC) AC Output Inverter/ Ratings 5-00 kva Factor 0.8 or.0 AC Output Voltage 0, 0, 40 Hz/sec to 0 Hz/sec Slew Rate (adjustable) 5% continuous 50% for 0 minutes Overload Capability 00% for minute,000% for cycle Manual Bypass Switch Voltage 0, 0, 40 VAC Mounting Inside /Inverter Enclosure Positions Two 600 VAC, rotary drum, make-beforebreak type Construction Transfer Time Zero in both directions 5% continuous 50% for 0 minutes Overload Capacity 00% for minute,000% for cycle Environmental Regulation ± % Ambient Temperature to 04 o F (-5 to 40 o C) Voltage Adjustment ± 5 % Frequency 50 or 60 Hz; + 0.% Crest Factor : Total Harmonic 00% linear load < % Distortion (THD) 00% non-linear load < 5% Transient Response ± 5% (0-00% load) Recovery Time < 50 millisecond to ± % 00% - continuous Overload Capacity 5% - 0 minutes 50% - minute Mechanical Cooling Aided Convection or Forced Air, depending on kva rating and design (fans standard for 40 kva units and above) Cable Entry Top or Bottom Entry Standard Cabinet Rating NEMA / IP-0 (IP- with addition optional drip shield) Relative Humidity 0-95% non-condensing Operating Altitude 0,000 feet (,048 meters) 65-7 db(a) @ 4.9 feet (.5 meter) Audible Noise typical Mean Time Between > 05,000 Hours Failure (MTBF) Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected Custom Input and Output Voltages available Consult Us Addition of drip shield may increase the noise by - db(a)

DPP Specifications 0.8 Load Factor at Rated kva 0VDC (60 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 8 9% 87% 48 7 6 88 8 5 GTDX,00 499 6,807 DPP05-5 9% 87% 70 4 9 4 8 GTDX,00 590 0,0 DPP00-0 6 9% 87% 9 40 50 75 56 4 0 GTDX,500 680,880 DPP00-0 4 9% 87% 7 59 47 75 6 8 6 46 GTDX,950 885 9, DPP040-40 9% 87% 8 78 6 99 50 48 6 GTDX,050 90 5,76 DPP050-50 40 9% 87% 8 99 79 5 48 9 60 76 GTDX,50,5,0 0.8 Load Factor at Rated kva 40VDC (0 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 4 9% 89% 4 58 46 7 8 8 6 46 GTDX,950 885 7,046 DPP040-40 94% 89% 76 76 6 97 7 48 6 GTDX,050 90,5 DPP050-50 40 94% 89% 0 96 77 4 9 60 76 GTDX,50 975 6,657 DPP060-60 48 94% 89% 76 9 96 5 57 67 7 9 GTDX,550,57,988 DPP080-80 64 94% 89% 5 5 9 4 96 GTDX,400,45 4,650 DPP00-00 80 94% 89% 44 9 5 4 48 78 0 5 GTD4X 4,400,996 5, DPP5-5 00 94% 89% 55 9 9 0 55 47 5 90 GTD4X 4,900,7 66,64 DPP60-60 8 94% 89% 708 07 45 87 685 444 9 4 GTD4X 5,880,667 85,0 0.8 Load Factor at Rated kva 60VDC (80 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-00 60 94% 89% 885 8 07 484 57 555 4 04 GTD5X 7,060,0 06,66 DPP5-5 80 94% 89% 995 4 45 545 64 65 7 4 GTD5X 8,470,84 9,954.0 Load Factor at Rated kva 0VDC (60 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase* Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 0 9% 87% 70 4 9 0 8 5 GTDX,00 590 8,509 DPP05-5 5 9% 87% 9 40 50 64 4 8 GTDX,500 680,075 DPP00-0 0 9% 87% 7 59 47 75 9 56 4 0 GTDX,950 885 6,0 DPP00-0 0 9% 87% 8 78 6 99 8 8 6 46 GTDX,050 90 4,5 DPP040-40 40 9% 87% 8 99 79 5 48 48 6 GTDX,50 975,0.0 Load Factor at Rated kva 40VDC (0 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 0 94% 89% 76 76 6 97 6 8 6 46 GTDX,050 90 9,99 DPP040-40 40 94% 89% 0 96 77 4 48 6 GTDX,50 975 6,657 DPP050-50 50 94% 89% 76 9 95 5 68 9 60 76 GTDX,550,57, DPP060-60 60 94% 89% 5 5 9 67 7 9 GTDX,400,54 9,985 DPP080-80 80 94% 89% 44 9 5 4 48 96 GTD4X 4,400,996 5, DPP00-00 00 94% 89% 55 9 9 0 55 78 0 5 GTD4X 4,900,7 66,64 Coding DD EE FF GG HH I J AC Input Volts (code) DC Bus Volts (code) AC Output Volts (code) Freq (code) Output Factor (code) Charger Design (code) Config Code (code) 08 (0) 0 () 0/08 (0) 60 (60) 0.8 (K) 6-Pulse (S) Float (F) 480 (48) 40 (4) 77/480 (48) 50 (50).0 (W) -Pulse (T) Parallel (P) 600 (60) 60 (6) 0/80 (8) 80 (8) Circuit Breakers are sized at a minimum of 5% of rated current. Unit weights correspond to a 60 Hz unit. Contact us for 50 Hz unit weight. A complete model number includes the AC input voltage, DC bus (link) voltage, AC output voltage, system frequency, output power factor, and configuration. To build a model number, use the code in the matrix shown above, following the example format: DPP00-DD-EE-FF-GG-H-I-J; where DD=AC Input Voltage; EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency; H=Output Factor ( K for 0.8; W for.0); I=6(S) or (T) Pulse Charger design; J= configuration ( F for Float, P for Parallel Redundant). For Example: A 0 kva with 480 VAC input; 0 VDC bus voltage; 0/08 VAC output; 60 Hz; 0.8 output power factor; 6 pulse charger; Float system would have the following model number: DPP00-48--0-60-K-S-F. For custom systems and for units which do not have a configurable model number, insert a C in the model number as follows: DPP00C Sizes are subject to change. Top mounted cooling fans require 0.5 in ( mm) additional height. Certain optional features and/or combinations may require larger cabinets. Cabinet Dimensions Inches Millimeters H x W x D H x W x D GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x,7 x 94 GTDX 79 x 86 x 6,007 x,84 x 94 GTD4X 79 x 08 x 6,007 x,74 x 94 GTD5X 79 x 40 x 6,007 x,557 x 94 General Specifications Standard Features System Measurements (Displayed on LCD Panel) Total of Battery Discharges Total Operational Time on Batteries Average Time on Battery per Discharge Historical Min/Max Battery Voltage Recent Min/Max Battery Voltage Total Operation Time on Total Operation Time on Bypass Total Operation Time on Inverter Metering (Displayed on LCD Panel) DC Voltage DC Battery (+/-) AC Output Voltage AC Output AC Output Frequency Charger/Rectifier Output Battery Voltage (with Rectifier Configuration) Circuit Breakers AC Input (4 kaic, minimum) Battery Input (0 kaic, minimum) Bypass Input (4 kaic, minimum) Alarms - All displayed on LCD Alarm Panel with options for LEDs and Relays R = Red LED 4 A=Amber LED Y=Relay 5 (Opt #) Fan Failure R, Y (0) Charger Failure R, Y (69) Low DC Voltage R, Y () Low DC Disconnect R, Y (07) Battery Breaker Open R, Y (57) Battery Discharging R, Y (BDC) Bypass Supplying Load A, Y Over Temperature R, Y (0) ST/SW SCR Failure R, Y (SWF) Bypass Failure R, Y (BPF) Inverter Failure R, Y (58) IGBT Desaturation Overload Shutdown Retransfer Blocked System Diagnostics Displayed on LCD Alarm Panel Loss of System Communication(s) Supply Failure(s) Standard Relays The following alarms also include one set of normally open and normally closed relay contacts rated for 0 VAC at 8 amps (0 VDC at 8 amps; 5 V at 00 mil): Trouble (Summary), Bypass Supplying Load, Communications Failure (Summary) Applicable Standards, Codes and Regulations NEMA PE- ANSI ANSI/NFPA 70 IEEE UL/C-UL (UL778) Unit Manufactured in ISO900 Certified Facility General Specifications Optional Features Metering and System Measurements (Opt. #) Alarms (LCD) (Option #) AC Input (Voltage, Frequency, ) () Charger Overload (9) Bypass Input Frequency () Bypass Input Voltage () Output (kva, kw, Factor) (4) % Inverter Loading (5) Inverter Output Voltage (7) Circuit Breaker (Opt. #) 65 kaic AC Input and Bypass Input (8/85) Inverter Output (Non-Automatic) (7) AC Output (8) Battery High Interrupt Breaker (86) Miscellaneous (Opt. #) Rectifier Configuration (4) Charger Output Blocking Diode (9) Charger Output Ripple Filter (59) Latching Alarms (8) Lamp Test (5) ESI (Essential System Indicator) Panel () Alarm Test () Precharge Circuit () Emergency Off (9) 0% Spare Terminals (96) Drip Shield (65) Lifting Eye Bolts (05) Padlockable Circuit Breakers (9) PCB Confrormal Coating (7) Fungus and Moisture Proof (70) Parallel Redundant Configuration Pulse Charger (0% Reflected Harmonics) Remote External MBS Battery Charger/Rectifier AC Input Nominal Voltage 08, 80, 45, 480, 600 VAC (Ø) Input Range ± 0% (- 5% without discharging) High DC Disconnect () Positive/Negative to Ground ( relays) () High/Low Bypass Source Voltage (7/6) High/Low AC Output Voltage (9/8) AC Failure (6) AC Output Overload (40) High/Low Inverter Output Voltage (4/4) Out-of-Sync (4) Inverter Fuse Blown (44) Inverter Off Frequency (45) Bypass Off Frequency (46) Rectifier/Charger Fuse Blown (67) Battery Near Exhaustion (60) Low AC Input Voltage (68) High DC Voltage (5) MBS to Bypass (84) AC Input CB Open (0) Bypass Input CB Open (0) AC Output CB Open (04) High AC Input Voltage (4) Communications (Option #) Modbus RTU (RS485 Connection) (87) Ethernet Webpage (87) Modbus TCP (87) Consult Us for Additional Communications Options LED Indicators (Color) (Option #) In Sync (Green) (SNK) AC Input Available (Green) (4) Bypass Available (Green) (5) Inverter Available (Green) (47) Charger Available (Green) (8) 4 Additional LED Indicators ( green, 9 red allowed) 5 Additional Relay Contacts (Max of allowed) General Specifications Performance Static Switch Bypass Voltage 08, 80, 45, 480, 600 (Ø) Inversely paired set of SCRs (one set Switch Type per leg) Failure Mode Automatically fails to Bypass Frequency 50 or 60 Hz ± 5% DC Output Transfer Time Make Before Break DC Bus Voltage(s) 0, 0, 0, 40 and 60 VDC Sync Capture Range 0.5% to.5% Regulation ± % Ripple Voltage < % with battery connected Sized to recharge a 0 minute battery to 95% of its rated Capacity capacity within 8 hours, while simultaneously supplying power to a fully loaded inverter Float/Equalize ± 5% Adjustability Inverter DC Input Nominal Voltage 0 V/55 (96-8 VDC) Range/ #of Cells 0 V/60 (05-40 VDC) (Lead Calcium Type) 0 V/0 (9-56 VDC) 40 V/0 (0-80 VDC) 60 V/80 (5-49 VDC) AC Output Inverter/ Ratings 0-5 kva Factor 0.8 or.0 AC Output Voltage 0/08, 0/80, 77/480 VAC Hz/sec to 0 Hz/sec Slew Rate (adjustable) 5% continuous 50% for 0 minutes Overload Capability 00% for minute,000% for cycle Manual Bypass Switch Voltage 08, 80, 45, 480, 600 (Ø) Mounting Inside /Inverter Enclosure Positions Two 600 VAC, rotary drum, make-beforebreak type Construction Transfer Time Zero in both directions 5% continuous 50% for 0 minutes Overload Capacity 00% for minute,000% for cycle Environmental Regulation ± % Ambient Temperature to 04 o F (-5 to 40 o C) Voltage Adjustment ± 5 % Frequency 50 or 60 Hz; + 0.% Crest Factor : Total Harmonic 00% linear load < % Distortion (THD) 00% non-linear load < 5% Transient Response ± 5% (0-00% load) Recovery Time < 50 millisecond to ± % 00% - continuous Overload Capacity 5% - 0 minutes 50% - minute Mechanical Aided Convection or Forced Air, depending on kva rating Cooling and design (fans standard for 40 kva units and above) Cable Entry Top or Bottom Entry Standard NEMA / IP-0 Cabinet Rating (IP- with addition optional drip shield) Relative Humidity 0-95% non-condensing Operating Altitude 0,000 feet (,048 meters) 65-7 db(a) @ 4.9 feet (.5 meter) Audible Noise typical Mean Time Between > 05,000 Hours Failure (MTBF) Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected Custom Input and Output Voltages available Consult Us Addition of drip shield may increase the noise by - db(a)

DPP/IEC Industrial Pulse Width Modulated Uninterruptible Supply System IEC Compliant THREE PHASE 0-5 kva The three phase Digital Process Uninterruptible Supply () system from AMETEK Solidstate Controls is a true on-line, double conversion system that provides continuous, clean, regulated power for critical AC loads and is IEC compliant. The DPP is designed for process control and industrial applications and offers better isolation and faster, more accurate signals between processors. The Behind the Process PROCESSPOWER SYSTEM LCD AND TOUCH SCREEN USER PANEL Shown with optional indicator lights Keypad Controls and Switches Float/Equalize Initialization with Light Battery Test Initialization Inverter to Load with Light Bypass to Load with Light Static Switch Reset Retransfer Latching Alarm Reset Audible Alarm Silence Display On Inverter Enable (On/Off) Switch * Standard LED Indicators: Normal and Trouble LCD Panel Indicators Equalize Time Remaining Charger Status (OK/Fail) Float/Equalize Status Inverter Status (OK/Fail) Synchronism Status (In/Out of Sync) Static Switch Position (Inverter or Bypass) Manual Bypass Position (Normal or Bypass) Bypass Status (OK/Fail) General Specifications Standard Features System Measurements (Displayed on LCD Panel) Total of Battery Discharges Total Operational Time on Batteries Average Time on Battery per Discharge Historical Min/Max Battery Voltage Recent Min/Max Battery Voltage Total Operation Time on Total Operation Time on Bypass Total Operation Time on Inverter Metering (Displayed on LCD Panel) DC Voltage DC Battery (+/-) AC Output Voltage AC Output AC Output Frequency Charger/Rectifier Output Battery Voltage (with Rectifier Configuration) Circuit Breakers AC Input (4 kaic, minimum) Battery Input (0 kaic, minimum) Bypass Input (4 kaic, minimum) Alarms (Displayed on LCD Alarm Panel) Fan Failure Charger Failure Low DC Voltage Low DC Disconnect Battery Breaker Open ST/SW Retransfer Blocked Battery Discharging IGBT Desaturation Overload Shutdown Bypass Supplying Load ST/SW Bridge Over Temperature Inverter Bridge Over Temperature ST/SW SCR Failure Bypass Failure Inverter Failure System Diagnostics (Displayed on LCD Alarm Panel) Loss of System Communication(s) Supply Failure(s) Standard Relays The following alarms also include one set of normally open and normally closed relay contacts rated for 0 VAC at 8 amps (0 VDC at 8 amps; 5 V at 00 mil): Trouble (Summary)Bypass Supplying Loa Communications Failure (Summary) Applicable Standards, Codes and Regulations NEMA PE- ANSI ANSI/NFPA 70 IEEE IEC 6040 Parts,, & UL/C-UL (UL778) Unit Manufactured in ISO900 Certified Facility General Specifications Optional Features Metering and System Measurements (Option #) Miscellaneous Continued (Option #) AC Input (Voltage, Frequency, ) () Latching Alarms (8) Bypass Input Frequency () Lamp Test (5) Bypass Input Voltage () ESI (Essential System Indicator) Panel () Output (kva, kw, Factor) (4) Alarm Relay Test () % Inverter Loading (5) Inverter Output Voltage (7) Alarms (Option #) Circuit Breaker (Option #) Charger Overload (9) 65 kaic AC Input and Bypass Input (8/85) Inverter Output (Non-Automatic) (7) AC Output (8) Battery High Interrupt Breaker (86) Communications (Option #) Modbus RTU (RS485 Connection) (87) Ethernet Webpage (87) Modbus TCP (87) SCI-Link Consult Factory for Additional Communication Options Miscellaneous (Option #) Rectifier Configuration (4) Charger Output Blocking Diode (9) Charger Output Ripple Filter Cascade Redundant Configuration Parallel Redundant Configuration Pulse Charger (0% Reflected Harmonics) Additional Relay Contacts (Max of available) Additional LED Indicators ( green, 9 red available) Remote External MBS Battery Charger/Rectifier AC Input Nominal Voltage 08, 80, 45, 480, 600: -phase/ - wire Input Range ± 0% (- 5% without discharging) Frequency 50 or 60 Hz ± 5% DC Output DC Bus Voltage(s) 0,0,0, 40 and 60 VDC Regulation ± % Ripple Voltage < % with battery connected Capacity Sized to recharge a 0 minute battery to 95% of its rated capacity within 8 hours, while simultaneously supplying power to a fully loaded inverter Float/Equalize ± 5% Adjustability Inverter High DC Disconnect () Positive/Negative to Ground ( relays) () High/Low Bypass Source Voltage (7/6) High/Low AC Output Voltage (9/8) AC Failure (6) AC Output Overload (48) High/Low Inverter Output Voltage (4/4) Out-of-Sync (4) Inverter Fuse Blown (44) Inverter Off Frequency (45) Bypass Off Frequency (46) Rectifier/Charger Fuse Blown (67) Battery Near Exhaustion (60) Low AC Input Voltage (68) High DC Voltage (5) Rectifier/Charger Failure (69) MBS to Bypass (78) AC Input CB Open (0) Bypass Input CB Open (0) AC Output CB Open (04) General Specifications Performance Static Switch Bypass Voltage 0/08, 0/80, and 77/480: -phase, 4-wire Switch Type Inversely paired set of SCRs (one set per leg) Failure Mode Automatically fails to bypass Transfer Time Make Before Break Sync Capture Range 0.5% to.5% adjustable Slew Rate Hz/sec to 0 Hz/sec (adjustable) Overload Capability 5% continuous 50% for 0 minutes 00% for minute,000% for cycle Manual Bypass Switch Voltage 0/08, 0/80, and 77/480: -phase, 4-wire Mounting Inside /Inverter DC Input Enclosure Nominal Voltage 0 V/55 (96-8 VDC) Positions Two Range/ #of Cells 0 V/60 (05-40 VDC) Construction 600 VAC, rotary drum, make-before-break (Lead Calcium Type) 0 V/0 (9-56 VDC) type 40 V/0 (0-80 VDC) Transfer Time Zero in both directions Overload Capacity 5% continuous 50% for 0 minutes AC Output Inverter/ Ratings 0-5 kva Factor 0.8 or.0 00% for minute,000% for cycle Environmental AC Output Voltage 0/08, 0/80 and Ambient Temperature to 04 o F (-5 to 40 o C) 77/480: -phase, 4-wire Regulation ± % Relative Humidity 0-95% non-condensing Voltage Adjustment ± 5% Operating Altitude 0,000 feet (,048 meters) Frequency 50 or 60 Hz; + 0.% Audible Noise 65-7 db(a) @ 4.9 feet (.5 meter) Crest Factor : typical Total Harmonic 00% linear load < % Cooling Aided Convection or Forced Distortion (THD) 00% non-linear load < 5% Air, depending on kva rating Transient Response ± 5% (0-00% load) and design (fans standard Recovery Time < 50 millisecond to ± % for 40 kva units and above) Overload Capacity 00% - continuous 5% - 0 minutes 50% - minute Cable Entry Top and Bottom Entry Standard Mean Time Between Failure > 05,000 Hours (MTBF) Cabinet Rating NEMA / IP-0 (IP- with addition optional drip shield) Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected Custom Input and Output Voltages available Contact Us Addition of drip shield may increase the noise by - db(a)

0.8 Load Factor at Rated kva 0 VDC (60 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 8 9% 87% 48 7 6 88 8 5 GTDX,00 499 6,807 DPP05-5 9% 87% 70 4 9 4 8 GTDX,00 590 0,0 DPP00-0 6 9% 87% 9 40 50 75 56 4 0 GTDX,500 680,880 DPP00-0 4 9% 87% 7 59 47 75 6 8 6 46 GTDX,950 885 9, DPP040-40 9% 87% 8 78 6 99 50 48 6 GTDX,050 90 5,76 DPP050-50 40 9% 87% 8 99 79 5 48 9 60 76 GTDX,900,5,0 0.8 Load Factor at Rated kva 40 VDC (0 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 4 9% 89% 4 58 46 7 8 8 6 46 GTDX,950 885 7,046 DPP040-40 94% 89% 76 76 6 97 7 48 6 GTDX,050 90,5 DPP050-50 40 94% 89% 0 96 77 4 9 60 76 GTDX,50 975 6,657 DPP060-60 48 94% 89% 76 9 96 5 57 67 7 9 GTDX,550,57,988 DPP080-80 64 94% 89% 5 5 9 4 96 GTDX,00,45 4,650 DPP00-00 80 94% 89% 44 9 5 4 48 78 0 5 GTD4X 4,400,996 5, DPP5-5 00 94% 89% 55 9 9 0 55 47 5 90 GTD4X 4,900,7 66,64 DPP60-60 8 94% 89% 708 07 45 87 685 444 9 4 GTD4X 5,880,667 85,0 0.8 Load Factor at Rated kva 60 VDC (80 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-00 60 94% 89% 885 8 07 484 57 555 4 04 GTD5X 7,060,0 06,66 DPP5-5 80 94% 89% 995 4 45 545 64 65 7 4 GTD5X 8,470,84 9,954.0 Load Factor at Rated kva 0 VDC (60 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 0 9% 87% 70 4 9 0 8 5 GTDX,00 590 8,509 DPP05-5 5 9% 87% 9 40 50 64 4 8 GTDX,500 680,075 DPP00-0 0 9% 87% 7 59 47 75 9 56 4 0 GTDX,950 885 6,0 DPP00-0 0 9% 87% 8 78 6 99 8 8 6 46 GTDX,050 90 4,5 DPP040-40 40 9% 87% 8 99 79 5 48 48 6 GTDX,900 975,0.0 Load Factor at Rated kva 40 VDC (0 Lead Acid Battery Cells) PH AC Input/Freq AC Amps Per Phase Max DC PH AC Output Amps Per Phase Cabinet Weight Heat Loss (BTU/hr) kva kw AC-DC DC-AC 08/60 480/60 600/60 80/50 @.75 VPC 08 480 80 lb kg DPP00-0 0 94% 89% 76 76 6 97 6 8 6 46 GTDX,050 90 9,99 DPP040-40 40 94% 89% 0 96 77 4 48 6 GTDX,50 975 6,657 DPP050-50 50 94% 89% 76 9 95 5 68 9 60 76 GTDX,550,57, DPP060-60 60 94% 89% 5 5 9 67 7 9 GTDX,400,54 9,985 DPP080-80 80 94% 89% 44 9 5 4 48 96 GTD4X 4,400,996 5, DPP00-00 00 94% 89% 55 9 9 0 55 78 0 5 GTD4X 4,900,7 66,64 Coding DD EE FF GG HH I J AC Input Volts (code) DC Bus Volts (code) AC Output Volts (code) Freq (code) Output Factor (code) Charger Design (code) Config Code (code) 08 (0) 0 () 0/08 (0) 60 (60) 0.8 (K) 6-Pulse (S) Float (F) 480 (48) 40 (4) 77/480 (48) 50 (50).0 (W) -Pulse (T) Cascaded (C) 600 (60) 60 (6) 0/80 (8) Parallel (P) 80 (8) Cabinet Dimensions Inches Millimeters H x W x D H x W x D GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x,7 x 94 GTDX 79 x 86 x 6,007 x,84 x 94 GTD4X 79 x 08 x 6,007 x,74 x 94 GTD5X 79 x 40 x 6,007 x,557 x 94 Circuit Breakers are sized at a minimum of 5% of rated current. Unit weights correspond to a 60 Hz unit. Contact us for 50 Hz unit weight. A complete model number includes the AC input voltage, DC bus (link) voltage, AC output voltage, system frequency, output power factor, and configuration. To build a model number, use the code in the matrix shown above, following the example format: DPP00-DD-EE-FF-GG-H-I-J; where DD=AC Input Voltage; EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency; H=Output Factor ( K for 0.8; W for.0); I=6(S) or (T) Pulse Charger design; J= configuration ( F for Float, C for Cascaded Redundant, P for Parallel Redundant). For Example: A 0 kva with 480 VAC input; 0 VDC bus voltage; 0/08 VAC output; 60 Hz; 0.8 output power factor; 6 pulse charger; Float system would have the following model number: DPP00-48- -0-60-K-S-F.. For custom systems and for units which do not have a configurable model number, insert a C in the model number as follows: DPP00C Sizes are subject to change. Top mounted cooling fans require 0.5 in ( mm) additional height. Certain optional features and/or combinations may require larger cabinets. WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com REV /08 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.

DSE Digitally Controlled Ferroresonant Industrial Uninterruptible Supply System SINGLE PHASE -50 kva The DSE Uninterruptible Supply () system from AMETEK Solidstate Controls combines the best of both worlds: () The reliability and robust design of a Ferroresonant () The digital control and communications typically found only in Pulse Width Modulation products The DSE is a true on-line, double conversion system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and harsh industrial applications, the DSE combines digital control for enhanced communications, monitoring, control and diagnostics capabilities with proven ferroresonant transformer design. The DSE also includes the LCD panel and user-friendly touch screen display found in our Digital Process systems for the ultimate in user control. Benefits of the DSE: Exceeds 05,000 hours MTBF Vacuum pressure impregnated (VPI) magnetics with 00ºC epoxy insulation (Class N) Unique crest factor circuitry provides full capacity for non-linear loads All components are front accessible with no side or back clearance required Integral system event recording for diagnostics (logs last 500 events) Microprocessor based alarms 6 or pulse charger available Available in single phase, -wire output for split phase The Behind the Process PROCESSPOWER SYSTEM LCD AND TOUCH SCREEN USER PANEL Shown with optional indicator lights Keypad Controls and Switches Float/Equalize Initialization with Light Battery Test Initialization Inverter to Load with Light Bypass to Load with Light Static Switch Reset Retransfer Latching Alarm Reset Audible Alarm Silence Display On *Standard LED Indicators: Normal and Trouble Standard LCD Panel Indicators Equalize Time Remaining Charger Status (OK/Fail) Float/Equalize Status Inverter Status (OK/Fail) Synchronism Status (In/Out of Sync) Static Switch Position (Inverter or Bypass) Manual Bypass Position (Normal or Bypass) Bypass Status (OK/Fail) General Specifications Standard Features System Measurements (Displayed on LCD Panel) Total of Battery Discharges Total Operational Time on Batteries Average Time on Battery per Discharge Historical Min/Max Battery Voltage Recent Min/Max Battery Voltage Total Operation Time on Total Operation Time on Bypass Total Operation Time on Inverter Metering (Displayed on LCD Panel) DC Voltage DC Battery (+/-) AC Output Voltage AC Output AC Output Frequency Charger/Rectifier Output Circuit Breakers AC Input (4 kaic, minimum) Battery Input (0 kaic, minimum) Bypass Input (4 kaic, minimum) Alarms (Displayed on LCD Alarm Panel) Fan Failure Charger Failure Low DC Voltage Low DC Disconnect Battery Breaker Open ST/SW Retransfer Blocked Battery Discharging Overload Shutdown Bypass Supplying Load ST/SW Bridge Over Temperature Inverter Bridge Over Temperature ST/SW SCR Failure Bypass Failure Inverter Failure System Diagnostics (Displayed on LCD Alarm Panel) Loss of System Communication(s) Supply Failure(s) Relay Controls The following alarms also include one set of normally open and normally closed relay contacts rated for 0 VAC at 8 amps (0 VDC at 8 amps): Trouble (Summary) Bypass Supplying Load Communications Failure (Summary) Applicable Standards, Codes and Regulations NEMA PE- ANSI ANSI/NFPA 70 IEEE UL/C-UL (UL778) ISO900 Certified Facility General Specifications Optional Features Metering and System Measurements (Option #) Miscellaneous Continued (Option #) AC Input (Voltage, Frequency, ) () Bypass Input Frequency () Bypass Input Voltage () Output (kva, kw, Factor) (4) % Inverter Loading (5) Inverter Output Voltage (7) Analog Meters (96) Circuit Breaker (Option #) 65 kaic AC Input and Bypass Input (8/85) Inverter Output (Non-Automatic) (7) AC Output (8) Battery High Interrupt Breaker (86) Communications (Option #) Modbus RTU (RS485 Connection) (87) Ethernet Webpage (87) Modbus TCP (87) SCI-Link Consult Factory for Additional Communication Options Miscellaneous (Option #) Rectifier Configuration (4) Charger Output Blocking Diode (9) Charger Output Ripple Filter Cascade Redundant Configuration Pulse Charger (0% Reflected Harmonics) Additional Relay Contacts (Max of available) Additional LED Indicators ( green, 9 red available) Remote External MBS General Specifications Performance Latching Alarms (8) Lamp Test (5) Alarm Relay Test () Alarms (Option #) Charger Overload (9) High DC Disconnect () Positive/Negative to Ground ( relays) () High/Low Bypass Source Voltage (7/6) High/Low AC Output Voltage (9/8) AC Failure (6) AC Output Overload (48) High/Low Inverter Output Voltage (4/4) Out-of-Sync (4) Inverter Fuse Blown (44) Inverter Off Frequency (45) Bypass Off Frequency (46) Rectifier/Charger Fuse Blown (67) Battery Near Exhaustion (60) Low AC Input Voltage (68) High DC Voltage (5) Rectifier/Charger Failure (69) MBS to Bypass (78) AC Input CB Open (0) Bypass Input CB Open (0) AC Output CB Open (04) Battery Charger/Rectifier Static Switch AC Input Bypass Voltage 0 Single Phase, -wire Nominal Voltage 08, 480: -phase/ -wire 0/40 Single Phase, -wire Input Range ± 0% (- 5% without discharging) Switch Type Inversely paired set of SCRs (one set per leg) Frequency 60 Hz ± 5% Failure Mode Automatically fails to bypass DC Output Transfer Time Make Before Break DC Bus Voltage(s) 0, 40 VDC Sync Capture Range 0.5% to 0.8% adjustable Regulation ± % Slew Rate Hz/sec to 0 Hz/sec Ripple Voltage < % with battery connected (adjustable) Capacity Sized to recharge a 0 minute battery to 95% of its rated capacity within 8 hours, while simultaneously supplying power to a fully loaded inverter Overload Capability 5% continuous 50% for 0 minutes 00% for minute,000% for cycle Manual Bypass Switch Float/Equalize ± 5% Adjustability Voltage 0: Single phase, wire 0/40: Single phase, wire Inverter Mounting Inside /Inverter DC Input Enclosure Nominal Voltage 0 V/60 (05-40 VDC) Positions Two Range/ # of Cells (Lead Acid Type) 40 V/0 (0-80 VDC) Construction 600 VAC, rotary drum, makebefore-break type Transfer Time Zero in both directions AC Output Inverter/ Ratings - 50 kva Overload Capacity 5% continuous 50% for 0 minutes 00% for minute,000% for cycle Factor Range 0.8 -.0 Environmental AC Output Voltage 0: Single phase, wire Ambient Temperature to 04 o F (0 to 40 o C) 0/40: Single phase, wire Relative Humidity 0-95% non-condensing Regulation ± % Operating Altitude 0,000 feet (,048 meters) Frequency 60 Hz; ± 0.% Audible Noise 65-7 db(a) @ 4.9 feet Crest Factor : (.5 meter) typical Total Harmonic Distortion (THD) Transient Response 00% linear load < 5% % for ½ cycle % after 50 milliseconds Cooling Aided Convection or Forced Air, depending on kva rating and design (fans standard for 0 kva units and above) Recovery Time < 50 millisecond to ± % Overload Capacity 0% - continuous 5% - 0 minutes 50% - minute Cable Entry Mean Time Between Failure (MTBF) Cabinet Rating Top and Bottom Entry Standard > 05,000 Hours NEMA / IP-0 (IP- with addition of optional drip shield) Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected Custom Input and Output Voltages available Consult Us Addition of drip shield may increase the noise by - db(a)

AC Amps per Phase (AC Input/Freq) 0 VDC (60 Lead Acid Battery Cells) Max DC AC Output Amps Cabinet AC I/P Circuit Breaker Battery I/P Breaker Bypass Breaker kva kw AC-DC DC-AC 480/60 08/60 @.75 VPC 0 40 08 480 0 0 0/40 lb kg DSE00-9% 8% 0 4 5 GTDX 0 5 50 5 0 885 40,6 DSE005-5 5 9% 85% 9 56 4 GTDX 5 5 70 60 0 885 46 4,996 DSE007-7.5 7.5 9% 85% 9 4 84 6 GTDX 60 5 00 80 40,00 500 7,49 DSE00-0 0 9% 85% 4 56 8 4 GTDX 70 0 5 5 60,5 60 9,5 DSE05-5 5 9% 86% 6 8 66 5 6 GTDX 5 50 00 75 80,050 9,8 DSE00-0 0 9% 86% 48 67 8 GTDX 50 60 50 5 0,00 955 7,08 DSE00-0 0 94% 87% 7 65 8 50 5 GTDX 5 90 400 50 75,650,05,805 DSE040-40 40 94% 88% 96 0 4 67 GTDX 00 5 500 500 5,050,86 8,50 DSE050-50 50 94% 88% 0 75 54 47 08 GTDX 400 50 600 600 00,700,68 5,68 AC Amps Per Phase (AC Input/Freq) kva kw AC-DC DC-AC 480/60 08/60 40 VDC (0 Lead Acid Battery Cells) Max DC @.75 VPC AC Output Amps Cabinet AC I/P Circuit Breaker Battery I/P Breaker Bypass Breaker Weight Weight 0 40 08 480 40 0 0/40 lb kg DSE00-9% 84% 7 5 GTDX 0 5 5 5 0 885 40,55 DSE005-5 5 9% 87% 9 7 4 GTDX 5 5 40 60 0 885 46 4,489 DSE007-7.5 7.5 9% 88% 0 46 4 6 GTDX 60 5 50 80 40,00 500 6,66 DSE00-0 0 9% 88% 4 56 54 8 4 GTDX 70 0 70 5 60,5 60 8,04 DSE05-5 5 9% 88% 6 84 8 5 6 GTDX 5 50 00 75 80,050 9,57 DSE00-0 0 9% 88% 48 08 67 8 GTDX 50 60 5 5 0,00 955 5,4 DSE00-0 0 94% 88% 7 65 6 50 5 GTDX 5 90 00 50 75,650,05,8 DSE040-40 40 94% 88% 96 0 7 67 GTDX 00 5 50 500 5,050,86 8,50 DSE050-50 50 94% 88% 0 75 70 47 08 GTDX 400 50 50 600 00,700,68 5,68 Cabinet Dimensions Inches Millimeters H x W x D H x W x D GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x,7 x 94 Coding DD EE FF GG I AC Input Volts (code) DC Bus Volts (code) AC Output Volts (code) Freq (code) Charger Design (code) 480 (48) 0 () 0 () 60 (60) 6-Pulse (S) 08 (0) 40 (4) 0/40 - (4) -Pulse (T) Heat Loss (BTU) Heat Loss (BTU) Circuit Breakers are sized at a minimum of 5% of rated current. A complete model number includes the AC input voltage, DC bus (link) voltage, AC output voltage and system frequency. To build a model number, use the code in the matrix shown above, following the example format: DSE00-DD-EE-FF-GG-I; where DD=AC Input Voltage; EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency; I=6(S) or (T) Pulse Charger design. For Example: A 0 kva with 480 VAC input; 0 VDC bus voltage; 0 VAC output; 60 Hz; 6-pulse charger design; would have the following model number: DSE00-48---60-S. For 0/40 VAC output units, add before DSE model number For custom systems and for units which do not have a configurable model number, insert a C in the model number as follows: DSE00C Specifications are subject to change. Top mounted cooling fans require 0.5 in ( mm) additional height. Certain optional features and/or combinations may require larger cabinets. WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com REV /08 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.

DPI/DPI DIGITAL PROCESS POWER Industrial Pulse Width Modulated Inverter DPI SINGLE PHASE 5-00 kva DPI THREE PHASE 0-5 kva The Digital Process Inverter (DPI) from AMETEK Solidstate Controls is a true on-line inverter system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and industrial applications, the DPI systems utilize state of the art Pulse Width Modulation (PWM) technology, incorporating high power IGBT semiconductors, and digital control for enhanced communications, monitoring, control and diagnostics capabilities. Also essential to the DPI design is the use of fiber optic cables for control and communications; allowing for better isolation and faster, more accurate signals between processors. The DPI designs also include an LCD panel and user-friendly touch screen display for the ultimate in user control. True on-line inverter system Designed specifically for process control and harsh industrial applications High power IGBT semiconductors and digital control Fiber optic cables used for control and communications LCD panel and user-friendly touch screen display Offers a better transient response to step-load changes Digital Process has lower audible noise The Behind the Process Keypad Controls and Switches Inverter to Load with Light Bypass to Load with Light Static Switch Reset Retransfer Latching Alarm Reset Audible Alarm Silence Display On *Standard LED Indicators: Normal and Trouble Standard LCD Panel Indicators Inverter Status (OK/Fail) Synchronism Status (In/Out of Sync) Static Switch Position (Inverter or Bypass) Manual Bypass Position (Normal or Bypass) Bypass Status (OK/Fail) PROCESSPOWER SYSTEM LCD AND TOUCH SCREEN USER PANEL Shown with optional indicator lights

DPI Specifications 0.8 Load Factor at Rated kva 0 VDC (60 Lead Calcium Battery Cells) AC Output Amps Max DC Weight Cabinet kva kw DC-AC 0 0 40 @.75 VPC lb kg DPI005-5 4 87% 4 44 GTDX 650 95,09 DPI007-7.5 6 87% 6 4 66 GTDX 750 40,059 DPI00-0 8 87% 8 45 4 88 GTDX 900 408 4,079 DPI05-5 87% 5 68 6 GTDX,050 476 6,8 DPI00-0 6 87% 67 9 8 75 GTDX,50 5 8,57 DPI00-0 4 87% 50 6 5 6 GTDX,00 544,6 DPI040-40 87% 8 67 50 GTDX,50 567 6,5 DPI050-50 40 87% 47 8 08 48 GTDX,950 885 0,94 0.8 Load Factor at Rated kva 40 VDC (0 Lead Acid Battery Cells) AC Output Amps Max DC Weight Cabinet kva kw DC-AC 0 0 40 @.75 VPC lb kg DPI00-0 4 89% 50 6 5 8 GTDX,00 544 0, DPI040-40 89% 8 67 7 GTDX,500 680,495 DPI050-50 40 89% 47 7 08 4 GTDX,75 78 6,868 DPI060-60 48 89% 500 7 50 57 GTDX,050 90 0,4 DPI080-80 64 89% 667 64 4 GTDX,00,04 6,989 DPI00-00 80 89% 8 454 47 48 GTDX,00,497,77 Coding Heat Loss (BTU/hr) Heat Loss (BTU/hr) EE FF GG H J DC Bus Volts (code) AC Output Volts (code) Frequency (code) Output Factor (code) Configuration (code) 0 - () 0 - () 60 - (60) 0.8 - (K) Cascaded - (C) 0 - () 0 - () 50 - (50) Parallel - (P) 0 - () 40 - (4) Cabinet Dimensions Inches Millimeters H x W x D H x W x D GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x,7 x 94 GTDX 79 x 86 x 6,007 x,84 x 94 GTD4X 79 x 08 x 6,007 x,74 x 94 General Specifications Standard Features System Measurements (Displayed on LCD Panel) Total Operation Time on Bypass Total Operation Time on Inverter Metering (Displayed on LCD Panel) DC Voltage DC Battery (+/-) AC Output Voltage AC Output AC Output Frequency Circuit Breakers DC Input (0 kaic, minimum) Bypass Input (4 kaic, minimum) Alarms - All displayed on LCD Alarm Panel with options for LEDs and Relays R = Red LED 4 A=Amber LED Y=Relay 5 (Option #) Fan Failure R, Y (0) Low DC Voltage R, Y () Low DC Disconnect R, Y (07) Battery Breaker Open R, Y (57) Bypass Supplying Load A, Y Over Temperature R, Y (0) ST/SW SCR Failure (SWF) R, Y Bypass Failure (BPF) R, Y Inverter Failure R, Y (58) IGBT Desaturation Overload Shutdown Retransfer Blocked System Diagnostics (Displayed on LCD Alarm Panel) Loss of System Communication(s) Supply Failure(s) Relay Controls The following alarms also include one set of normally open and normally closed relay contacts rated for 0 VAC at 8 amps (0 VDC at 8 amps): Trouble (Summary) Bypass Supplying Load Communications Failure (Summary) Applicable Standards, Codes and Regulations NEMA PE- ANSI ANSI/NFPA 70 IEEE UL/C-UL (UL778) Unit Manufactured in ISO900 Certified Facility General Specifications Optional Features Metering and System Measurements (Option #) Alarms (LCD) (Option #) Bypass Input Frequency () Bypass Input Voltage () Output (kva, kw, Factor) (4) % Inverter Loading (5) Inverter Output Voltage (7) Circuit Breaker (Option #) 65 kaic Bypass Input (85) Inverter Output (Non-Automatic) (7) AC Output (8) High DC Disconnect () Positive/Negative to Ground ( relays) () High/Low Bypass Source Voltage (7/6) High/Low AC Output Voltage (9/8) AC Output Overload (40) High/Low Inverter Output Voltage (4/4) Out-of-Sync (4) Inverter Fuse Blown (44) Inverter Off Frequency (45) Bypass Off Frequency (46) Battery Near Exhaustion (60) High DC Voltage (5) MBS in Bypass to Load (84) Inverter Output CB Open (0) Bypass Input CB Open (0) AC Output CB Open (04) Battery Time Remaining (57) Miscellaneous (Option #) Communications (Option #) Latching Alarms (8) Lamp Test (5) ESI (Essential System Indicator) Panel () Alarm Test () Precharge Circuit () Emergency Off (9) Key Lock Enclosure (59) Drip Shield (65) Lifting Eye Bolts (05) Padlockable Circuit Breakers (9) Padlockable MBS (0P) MBS with Sync Lockout () DC Rated Contacts (7) Space Heater (88) PCB Confrormal Coating (7) Fungus and Moisture Proof (70) Parallel Redundant Configuration Remote External MBS Modbus RTU (RS485 Connection) (87) Ethernet Webpage (87) Modbus TCP (87) Consult Us for Additional Communications Options LED Indicators (Color) (Option #) In Sync (Green) (SNK) Bypass Available (Green) (5) Inverter Available (Green) (47) General Specifications Performance Inverter Static Switch DC Input Bypass Voltage 0, 0 VAC Nominal Voltage 0 V/55 (96-8 VDC) Range/ #of Cells 0 V/60 (05-40 VDC) Switch Type Inversely paired set of SCRs (one (Lead Calcium Type) 0 V/0 (9-56 VDC) set per leg) 40 V/0 (0-80 VDC) Failure Mode Automatically fails to Bypass Transfer Time Make Before Break AC Output Sync Capture Range 0.5% to.5% Inverter/ Ratings 5-00 kva Slew Rate Hz/sec to 0 Hz/sec Factor 0.8 (adjustable) AC Output Voltage 0, 0 Overload Capability 5% continuous 50% for 0 minutes Regulation ± % 00% for minute Voltage Adjustment ± 5 % 000% for cycle Circuit Breakers are sized at a minimum of 5% of rated current. Unit weights correspond to a 60 Hz unit. Contact factory for 50 Hz unit weight. A complete model number includes the DC bus (link) voltage, AC output voltage, system frequency, output power factor, and configuration. To build a model number, use the code in the matrix shown above, following the example format: DPI00-EE-FF-GG-H-J; where EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency; H= Factor; J=Inverter configuration ( F for Float, P for Parallel Redundant). For Example: A 0 kva inverter with a 40 VDC bus voltage; 0 output voltage; 60 Hz would have the following model number: DPI00-4--60-K-C For custom systems and for units which do not have a configurable model number, insert a C in the model number as follows: DPI00C Sizes are subject to change. Top mounted cooling fans require 0.5 in ( mm) additional height. Certain optional features and/or combinations may require larger cabinets Frequency 50 or 60 Hz; ± 0.% Manual Bypass Switch Crest Factor : Voltage 0, 0 VAC Total Harmonic 00% linear load < % Mounting Inside /Inverter Distortion (THD) 00% non-linear load < 5% Enclosure Positions Two Transient Response ± 5% (0-00% load) Construction 600 VAC, rotary drum, make- Recovery Time < 50 millisecond to + % before-break type Overload Capacity 00% - continuous Transfer Time Zero in both directions Mechanical Cooling 5% - 0 minutes 50% - minute Overload Capacity 5% continuous 50% for 0 minutes Aided Convection or Forced Air, depending on kva rating and design (fans standard for 40 kva units and above) 00% for minute,000% for cycle Environmental Ambient Temperature to 04 o F (-5 to 40 o C) Cable Entry Top or Bottom Entry Standard Relative Humidity 0-95% non-condensing Cabinet Rating NEMA / IP-0 (IP- with addition optional drip shield) Operating Altitude 0,000 feet (,048 meters) Audible Noise 65-7 db(a) @ 4.9 feet - (.5 meter) Typical Mean Time Between > 05,000 Hours Failure (MTBF) Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected Custom Input and Output Voltages available - Consult Us Addition of drip shield may increase the noise by - db(a) 4 Additional LED Indicators ( green, 9 red allowed) 5 Additional Relay Contacts (Max of allowed)

DPI Specifications Circuit Breakers are sized at a minimum of 5% of rated current. Unit weights correspond to a 60 Hz unit. Contact factory for 50 Hz unit weight. 0.8 Load Factor at Rated kva 0VDC (60 Lead Calcium Battery Cells) Max DC PH AC Output Amps Per Phase Cabinet Weight kva kw @.75 VPC 08 480 80 lb kg DPI00-0 8 87% 88 8 5 GTDX 75 5 4,077 DPI05-5 87% 4 8 GTDX 845 8 5,098 DPI00-0 6 87% 75 56 4 0 GTDX 975 44 8,58 DPI00-0 4 87% 6 8 6 46 GTDX,68 575,5 DPI040-40 87% 50 48 6 GTDX, 605 6,7 DPI050-50 40 87% 48 9 60 76 GTDX,98 64 0,94 Load Factor at Rated kva 40VDC (0 Lead Acid Battery Cells) Max DC PH AC Output Amps Per Phase Cabinet Weight kva kw @.75 VPC 08 480 80 lb kg DPI060-60 48 89% 57 67 7 9 GTDX,658 75 0,44 DPI080-80 64 89% 4 96 GTDX,0,00 6,990 DPI00-00 80 89% 48 78 0 5 GTD4X,860,97,79 DPI5-5 00 89% 55 48 50 90 GTD4X,85,445 4,74 Coding EE FF GG H J DC Bus Volts (code) AC Output Volts (code) Freq (code) Output Factor (code) Config Code (code) 0 - () 08 - (0) 50 - (50) 0.8 - (K) Cascaded - (C) 0 - () 80 - (8) 60 -(60) Cascaded - (C) 0 - () 480 - (48) 40 - (4) Cabinet Dimensions Inches Millimeters H x W x D H x W x D Heat Loss (BTU/hr) Heat Loss (BTU/hr) GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x,7 x 94 GTDX 79 x 86 x 6,007 x,84 x 94 GTD4X 79 x 08 x 6,007 x,74 x 94 A complete model number includes the DC bus (link) voltage, AC output voltage, system frequency, output power factor, and configuration. To build a model number, use the code in the matrix shown above, following the example format: DPI00-EE-FF-GG-H-J; where EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency;H= Factor; J=Inverter configuration ( F for Float, C for Cascaded Redundant, P for Parallel Redundant). For Example: A 0 kva inverter with a 40 VDC bus voltage; 08 output voltage; 60 Hz would have the following model number: DPI00-4-0-60-K-C For custom systems and for units which do not have a configurable model number, insert a C in the model number as follows: DPP00C Sizes are subject to change. Top mounted cooling fans require 0.5 in ( mm) additional height. Certain optional features and/or combinations may require larger cabinets - consult us General Specifications Standard Features System Measurements (Displayed on LCD Panel) Total Operation Time on Total Operation Time on Bypass Total Operation Time on Inverter Metering (Displayed on LCD Panel) DC Voltage DC Battery (+/-) AC Output Voltage AC Output AC Output Frequency Circuit Breakers DC Input (0 kaic, minimum) Bypass Input (4 kaic, minimum) Alarms (Displayed on LCD Alarm Panel) Fan Failure Charger Failure Low DC Voltage Low DC Disconnect DC Breaker Open ST/SW Retransfer Blocked Battery Discharging IGBT Desaturation Overload Shutdown Bypass Supplying Load ST/SW Bridge Over Temperature Inverter Bridge Over Temperature ST/SW SCR Failure Bypass Failure Inverter Failure System Diagnostics (Displayed on LCD Alarm Panel) Loss of System Communication(s) Supply Failure(s) Relay Controls The following alarms also include one set of normally open and normally closed relay contacts rated for 0 VAC at 8 amps (0 VDC at 8 amps): Trouble (Summary) Bypass Supplying Load Communications Failure (Summary) Applicable Standards, Codes and Regulations ANSI ANSI/NFPA 70 IEEE UL/C-UL (UL778) General Specifications Optional Features Metering and System Measurements (Option #) Miscellaneous Continued (Option #) Bypass Input Frequency () Latching Alarms (8) Bypass Input Voltage () Lamp Test (5) Output (kva, kw, Factor) (4) ESI (Essential System Indicator) Panel () % Inverter Loading (5) Alarm Relay Test () Inverter Output Voltage (7) Alarms (Option #) Circuit Breaker (Option #) High DC Disconnect () 65 kaic Bypass Input (8/85) Inverter Output (Non-Automatic) (7) AC Output (8) Battery High Interrupt Breaker (86) Communications (Option #) Modbus RTU (RS485 Connection) (87) Ethernet Webpage (87) Modbus TCP (87) SCI-Link Consult Us for Additional Communication Options Miscellaneous Parallel Redundant Configuration Additional Relay Contacts (Max of available) Additional LED Indicators( green, 9 red available) Remote External MBS Positive/Negative to Ground ( relays) () High/Low Bypass Source Voltage (7/6) High/Low AC Output Voltage (9/8) AC Output Overload (48) High/Low Inverter Output Voltage (4/4) Out-of-Sync (4) Inverter Fuse Blown (44) Inverter Off Frequency (45) Bypass Off Frequency (46) Battery Near Exhaustion (60) Low AC Input Voltage (68) High DC Voltage (5) MBS to Bypass (78) Bypass Input CB Open (0) AC Output CB Open (04) General Specifications Performance Inverter Static Switch DC Input Bypass Voltage 0/08, 0/80, and Nominal Voltage 0 V/55 (96-8 VDC) 77/480: -phase, 4-wire Range/ #of Cells 0 V/60 (05-40 VDC) Switch Type Inversely paired set of SCRs (one (Lead Calcium Type) 0 V/0 (9-56 VDC) set per leg) 40 V/0 (0-80 VDC) Failure Mode Automatically fails to Bypass 77/480: -phase, 4-wire Transfer Time Make Before Break AC Output Sync Capture Range 0.5% to.5% adjustable Inverter/ Ratings 0-5 kva Slew Rate Hz/sec to 0 Hz/sec Factor 0.8 or.0 (adjustable) AC Output Voltage 0/08, 0/80 and 77/480: -phase, 4-wire Regulation ± % Overload Capability 5% continuous 50% for 0 minutes 00% for minute,000% for cycle Voltage Adjustment ± 5% Frequency 50 or 60 Hz; ± 0.% Manual Bypass Switch Crest Factor : Voltage 0/08, 0/80, and Total Harmonic 00% linear load < % 77/480: -phase, 4-wire Distortion (THD) 00% non-linear load < 5% Mounting Inside /Inverter Transient Response ± 5% (0-00% load) Enclosure Recovery Time < 50 millisecond to ± % Positions Two Overload Capacity 00% - continuous Construction 600 VAC, rotary drum, make- 5% - 0 minutes before-break type 50% - minute Transfer Time Zero in both directions Overload Capacity 5% continuous 50% for 0 minutes 00% for minute,000% for cycle Environmental Ambient Temperature to 04 o F (-5 to 40 o C) Relative Humidity 0-95% non-condensing Operating Altitude 0,000 feet (,048 meters) Audible Noise 65-7 db(a) @ 4.9 feet (.5 meter) typical Cooling Cable Entry Mean Time Between Failure (MTBF) Cabinet Rating Aided Convection or Forced Air, depending on kva rating and design (fans standard for 40 kva units and above) Top and Bottom Entry Standard > 05,000 Hours NEMA / IP-0 (IP- with addition of optional drip shield) Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected Custom Input and Output Voltages available - Consult Us Addition of drip shield may increase the noise by - db(a)

DSS Digitally Controlled Ferroresonant Industrial Inverter SINGLE PHASE -50 kva The DSS Inverter from AMETEK Solidstate Controls combines the best of both worlds: () The reliability and robust design of a Ferroresonant Inverter () The digital control and communications typically found only in Pulse Width Modulation (PWM) products The DSS is a true on-line inverter system that provides continuous, clean, regulated power for critical AC loads. Designed specifically for process control and harsh industrial applications, the DSS combines digital control for enhanced communications, monitoring, and diagnostics capabilities with proven ferroresonant transformer design. The DSS also includes the LCD panel and user-friendly touch screen display found in our Digital Process systems for the ultimate in user control. Benefits of the DSS: Exceeds 05,000 hours MTBF Vacuum pressure impregnated (VPI) magnetics with 00ºC epoxy insulation (Class N) Unique crest factor circuitry provides full capacity for non-linear loads All components are front accessible with no side or back clearance required Integral system event recording for diagnostics (logs last 500 events) Microprocessor based alarms Available in single phase, -wire output for split phase The Behind the Process PROCESSPOWER SYSTEM LCD AND TOUCH SCREEN USER PANEL Shown with optional indicator lights Keypad Controls and Switches Inverter to Load with Light Bypass to Load with Light Static Switch Reset Retransfer Latching Alarm Reset Audible Alarm Silence Display On Standard LCD Panel Indicators Inverter Status (OK/Fail) Synchronism Status (In/Out of Sync) Static Switch Position (Inverter or Bypass) Manual Bypass Position (Normal or Bypass) Bypass Status (OK/Fail) * Standard LED Indicators: Inverter Normal and Inverter Trouble General Specifications Standard Features System Measurements (Displayed on LCD Panel) Total of Battery Discharges Total Operational Time on Batteries Average Time on Battery per Discharge Historical Min/Max Battery Voltage Recent Min/Max Battery Voltage Total Operation Time on Bypass Total Operation Time on Inverter Metering (Displayed on LCD Panel) DC Voltage DC Battery (+/-) AC Output Voltage AC Output AC Output Frequency Circuit Breakers DC Input (0 kaic, minimum) Bypass Input (4 kaic, minimum) Alarms (Displayed on LCD Alarm Panel) Fan Failure Low DC Voltage Low DC Disconnect DC Breaker Open ST/SW Retransfer Blocked Battery Discharging Overload Shutdown Bypass Supplying Load ST/SW Bridge Over Temperature Inverter Bridge Over Temperature ST/SW SCR Failure Bypass Failure Inverter Failure System Diagnostics (Displayed on LCD Alarm Panel) Loss of System Communication(s) Supply Failure(s) Relay Controls The following alarms also include one set of normally open and normally closed relay contacts rated for 0 VAC at 8 amps (0 VDC at 8 amps): Inverter Trouble (Summary) Bypass Supplying Load Inverter Communications Failure (Summary) Applicable Standards, Codes and Regulations NEMA PE- ANSI ANSI/NFPA 70 IEEE UL/C-UL (UL778) ISO900 Certified Facility General Specifications Optional Features Metering and System Measurements (Option #) Miscellaneous Continued (Option #) Bypass Input Frequency () Bypass Input Voltage () Output (kva, kw, Factor) (4) % Inverter Loading (5) Inverter Output Voltage (7) Analog Meters (98) Circuit Breaker (Option #) 65 kaic Bypass Breaker (85) Inverter Output (Non-Automatic) (7) AC Output (8) DC High Interrupt Breaker (86) Communications (Option #) Modbus RTU (RS485 Connection) (87) Ethernet Webpage (87) Modbus TCP (87) SCI-Link Consult Factory for Additional Communication Options Miscellaneous Cascade Redundant Configuration Additional Relay Contacts (Max of available) Additional LED Indicators( green, 9 red available) Remote External MBS Latching Alarms (8) Lamp Test (5) Alarm Relay Test () Alarms (Option #) High DC Disconnect () Positive/Negative to Ground ( relays) () High/Low Bypass Source Voltage (7/6) High/Low AC Output Voltage (9/8) AC Output Overload (48) High/Low Inverter Output Voltage (4/4) Out-of-Sync (4) Inverter Fuse Blown (44) Inverter Off Frequency (45) Bypass Off Frequency (46) Battery Near Exhaustion (60) High DC Voltage (5) MBS to Bypass (78) Bypass Input CB Open (0) AC Output CB Open (04) General Specifications Performance Inverter Static Switch DC Input Bypass Voltage 0 Single Phase, -wire Nominal Voltage 0 V/60 (05-40 VDC) 0/40 Single Phase, -wire Range/ #of Cells Switch Type Inversely paired set of SCRs (one (Lead Acid Type) 40 V/0 (0-80 VDC) set per leg) Failure Mode Automatically fails to bypass AC Output Transfer Time Make Before Break Inverter/ Ratings - 50 kva Sync Capture Range 0.5% to 0.8% adjustable Factor Range 0.8 -.0 Slew Rate Hz/sec to 0 Hz/sec AC Output Voltage 0: Single phase, wire (adjustable) 0/40: Single phase, wire Overload Capability 5% continuous 50% for 0 minutes Regulation ± % 00% for minute Frequency 60 Hz; ± 0.%,000% for cycle Crest Factor : Manual Bypass Switch Total Harmonic 00% linear load < 5% Voltage 0: Single phase, wire Distortion (THD) Transient Response % for ½ cycle 0/40: Single phase, wire % after 50 millisecond Recovery Time < 50 millisecond to ± % Mounting Inside /Inverter Overload Capacity 0% - continuous 5% - 0 minutes 50% - minute Positions Construction Transfer Time Enclosure Two 600 VAC, rotary drum, makebefore-break type Zero in both directions Overload Capacity 5% continuous 50% for 0 minutes 00% for minute,000% for cycle Environmental Ambient Temperature to 04 o F (0 to 40 o C) Relative Humidity 0-95% non-condensing Operating Altitude 0,000 feet (,048 meters) Audible Noise 65-7 db(a) @ 4.9 feet (.5 meter) typical Cooling Aided Convection or Forced Air, depending on kva rating and design (fans standard for 0 kva units and above) Cable Entry Top and Bottom Entry Standard Mean Time Between > 05,000 Hours Failure (MTBF) Cabinet Rating NEMA / IP-0 (IP- with addition of optional drip shield) Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected Custom Input and Output Voltages available - Consult Us Addition of drip shield may increase the noise by - db(a)

Max DC 0 VDC (60 Lead Acid Battery Cells) AC Output Amps Cabinet DC I/P Breaker Bypass Breaker Weight Heat Loss (BTU) kva kw DC-AC @.75 VPC 0 40 0 0 0/40 lb kg DSS00-8% 4 5 GTDX 50 5 0 885 40,097 DSS005-5 5 85% 56 4 GTDX 70 60 0 885 40,0 DSS007-7.5 7.5 85% 84 6 GTDX 00 80 40,00 500 4,56 DSS00-0 0 85% 8 4 GTDX 5 5 60,5 60 6,0 DSS05-5 5 86% 66 5 6 GTDX 00 75 80,050 9 8, DSS00-0 0 86% 67 8 GTDX 50 5 0,00 955,09 DSS00-0 0 87% 8 50 5 GTDX 400 50 75,650,05 5,95 DSS040-40 40 88% 4 67 GTDX 500 500 5,050,86 8,6 DSS050-50 50 88% 54 47 08 GTDX 600 600 00,700,68,64 Max DC 40 VDC (0 Lead Acid Battery Cells) AC Output Amps Cabinet DC I/P Breaker Bypass Breaker Weight Heat Loss (BTU) kva kw DC-AC @.75 VPC 0 40 40 0 0/40 lb kg DSS00-84% 7 5 GTDX 5 5 0 685,950 DSS005-5 5 87% 7 4 GTDX 40 60 0 685,549 DSS007-7.5 7.5 88% 4 6 GTDX 50 80 40 80 77,490 DSS00-0 0 88% 54 8 4 GTDX 70 5 60,5 5 4,65 DSS05-5 5 88% 8 5 6 GTDX 00 75 80,455 66 6,979 DSS00-0 0 88% 08 67 8 GTDX 5 5 0,65 74 9,05 DSS00-0 0 88% 6 50 5 GTDX 00 50 75,995 906,958 DSS040-40 40 88% 7 67 GTDX 50 500 5,40,07 8,6 DSS050-50 50 88% 70 47 08 GTDX 50 600 00,940,5,64 Cabinet Dimensions Inches Millimeters H x W x D H x W x D GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x,7 x 94 Coding EE FF GG DC Bus Volts (code) AC Output Volts (code) Freq (code) 0 () 0 () 60 (60) 40 (4) 0/40 - (4) 0/40 - (4) Circuit Breakers are sized at a minimum of 5% of rated current. A complete model number includes the DC bus (link) voltage, AC output voltage and system frequency. To build a model number, use the code in the matrix shown above, following the example format: DSS00-EE-FF-GG; where EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency. For Example: A 0 kva with 0 VDC bus voltage; 0 VAC output, 60 Hz frequency; would have the following model number: DSS00---60. For 0/40 VAC output units, add before DSE model number For custom systems and for units which do not have a configurable model number, insert a C in the model number as follows: DSS00C Specifications are subject to change. Top mounted cooling fans require 0.5 in ( mm) additional height. Certain optional features and/or combinations may require larger cabinets. WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com REV /08 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.

DVS Single or Three Phase Regulating Transformer 5-5 kva The DVS accommodates wide variations of incoming AC line voltage, while regulating and conditioning the AC output to preset limits. Suitable for harsh environments, the robust design utilizes a copper-wound, tripleshielded, low-impedance isolation transformer. The DVS incorporates state-of-the-art microprocessor technology and independent phase regulation engineered to eliminate voltage spikes and sags. High reliability Exceeds 05,000 hours MTBF Low-audible noise of 65-7 dba High efficiency Operating at 95% efficiency at full load Transient response time of less than cycles Correction time does not exceed 5 cycles Low total harmonic distortion of % Industrial grade built to operate in extreme environmental conditions Designed to be used with Inverter/ systems or as stand-alone operation Tight AC output regulation of ± % (± % optional) Unit displayed with optional features AC Input Performance Nominal Voltage 60 Hz: ø 0, 0, 480; ø 08, 480, 600 50 Hz: ø 0, 80, 45; ø 0, 80, 45 Input Range + 0% to - 5% Frequency 50 or 60 Hz, ± Hz General Specifications Standard Features Circuit Breaker AC Input Circuit Breaker (4 kaic minimum) Relays & LEDs Common Alarm Regulator Failure Fan Failure AC Output Optional Features (Option #) kva Ratings 5-5 kva Metering and System Measurements 60 Hz 0, 08/0, 480/77 AC Output Voltage AC Input Voltage (0) 50 Hz 0, 45/40, 80/0 AC Input (80) Regulation ± % (± % optional) AC Output Voltage (8) Voltage Adjustment + 4%, - % AC Output (66) AC Output Frequency (79) Frequency 50 or 60 Hz Circuit Breaker Total Harmonic Distortion (THD) % AC Output Circuit Breaker (4kAIC minimum) (8) Load PF 0.6 leading/lagging Hi-K AC Input Circuit Breaker (65kAIC minimum) (8) Maximum Correction Time < 5 cycles Alarm All alarm options below include front panel LEDs and relays Low AC Output Voltage (8) Overload Capacity 00% for 0 seconds,,000% for cycle High AC Output Voltage (9) Load Transient Response.5% (no load to full load) Recovery < cycles AC Output Overload (40) Cabinet Over Temperature (0) 95% Heatsink Over Temperature () Environmental & Mechanical Miscellaneous Ambient Temperature to 04 F (0 to 40 C) Drip Shield (65) Lifting Eye Bolts (05) Relative Humidity 0-95% non-condensing Padlockable Circuit Breakers (9) Operating Altitude 0,000 feet (,048 meters) PCB Confrormal Coating (7) Fungus and Moisture Proof (70) Audible Noise 65-7 db(a) @ 4.9 feet (.5 meter) -Position Manual Bypass Switch 4 (MBS) Mean Time Between Failure (MTBF) > 05,000 Hours (Refer to RMBS datasheet for optional features) Cooling Cable Entry Cabinet Rating Aided convection or forced air, depending on kva rating and design Top or bottom entry standard NEMA / IP-0 (IP- with optional drip shield) NEMA PE- ANSI ANSI/NFPA 70 Applicable Standards, Codes and Regulations IEEE IEC Unit Manufactured in ISO900 Certified Facility H x W x D (Inches) H x W x D (Millimeters) GTDX 79 x x 6,007 x 8 x 94 GTDX 79 x 54 x 6,007 x 7 x 94 DVS Coding (Code) 5 "DD" "EE" "FF" "GG" AC Input Volts (code) AC Output Volts (code) Frequency (code) Output Volts Regulation (code) 0 - () 0 - () 60 - (60) % - (R) 08 - (0) 08 - (0) 50 - (50) % - (R) 0 - () 0 - () 80 - (8) 80 - (8) 45 - (4) 45 - (4) 480 - (48) 480 - (48) 600 - (60) kva Input Amps Input Breaker Ampacity Output Amps Heat Loss BTU/Hr Cabinet 6 Weight lb Weight kg 0 VAC 480 VAC 0 VAC 480 VAC 0 VAC DVS005 5 5 70 0 4 7 GTDX 447 0 DVS007 7.5 77 9 00 5 6,066 GTDX 497 6 DVS00 0 0 6 50 5 8,4 GTDX 569 58 DVS05 5 5 8 00 50 5, GTDX 65 96 DVS00 0 06 5 00 60 67,59 GTDX 84 74 DVS00 0 0 77 400 70 50 5,87 GTDX 84 8 DVS040 40 4 0 600 50 7,8 GTDX,050 477 DVS050 50 56 9 700 75 47 8,979 GTDX, 555 DVS060 60 69 55 800 00 500 0,775 GTDX,87 584 DVS080 80 86 06 00 667 4,66 GTDX,50 6 Contact us DVS00 00,0 58 50 8 7,958 GTDX,960 889 kva Input Amps Input Breaker Ampacity Output Amps Heat Loss BTU/Hr Cabinet 6 Weight lb Weight kg 08 VAC 480 VAC 08 VAC 480 VAC 08 VAC DVS00 0 4 5 50 0 8,4 GTDX 57 60 DVS05 5 5 70 0 4, GTDX 676 07 DVS00 0 68 0 90 40 56,84 GTDX 875 97 DVS00 0 0 44 50 60 8 4,65 GTDX 96 45 DVS040 40 6 59 75 80 5,687 GTDX,5 56 DVS050 50 70 74 5 00 9 7,08 GTDX,5 64 DVS060 60 06 89 00 5 67 0,775 GTDX,4 649 DVS080 80 75 9 50 50 4,66 GTDX,580 77 DVS00 00 44 49 500 00 78 7,958 GTDX,05 9 DVS5 5 40 86 600 50 47,447 GTDX,56,6 DVS60 60 55 9 700 00 445 8,7 GTDX,5,40 DVS00 00 688 98 400 556 5,96 GTDX,844,744 Contact us DVS5 5 774 6 500 65 40,405 GTDX 4,90,946 Custom input and output voltages available - Consult us AC Input voltage range shifts upon output voltage adjustment Addition of drip shield may increase noise by - dba 4 We recommend the -Position Manual Bypass Switch optional feature can help save on space, wiring and overall installation costs. 5 A complete model number includes kva, AC input voltage (DD), AC output voltage (EE), Frequency (FF) and regulation percentage (GG). To build a model number, use the code in the matrix shown above, following the example format: DVS00-DD-EE-FF-GG For example: A 0 kva DVS with 0 VAC input, 0 VAC output, 60 Hz frequency, and % output voltage regulation would have the model number DVS00---60-R For -Phase output voltage, place a before the DVS model number Specifications subject to change without notice 6 For additional cabinet styles or footprints, contact us.

ISN -Limited Regulating Transformer 7.5 kva - 00 kva Isolimiter General Specifications Environmental AC Input Ambient Temperature F to 04 F (0 C) Voltage 0, 0, 80, 480 -phase Relative Humidity 0-95% non-condensing Range - 5% to + 0% Operating Altitude 0,000 feet (,048 meters) Frequency 60 Hz ± % Audible Noise 65-7 db (A) @ 4.9 feet (.5 meter) Addition of drip shield may increase the noise by - db (A) Cooling Convection < 7.5 kka Forced Air > 50 kva AC Output Cable Entry Top or Bottom Voltage 0, 0, 80, 480 VAC -Phase Regulation + % > 88% at full load Frequency 60 Load Factor 0.8 to.0 Standard Features Harmonic Distortion 5% (or less) THD Circuit Breakers AC Input Overload 50% to 00% fault clearing Indicators and Alarms Fan Failure (> 50 kva) Also available in 0/40 VAC -wire, 60 Hz and 600 VAC. Consult us. Noise Attenuation 0 db common mode 80 db transverse mode Optional Features Internal Manual Bypass Switch Circuit Breakers Meters Indicators & Alarms Transformer Construction Isolimiter Block Diagrams -Position; Make Before Break AC Output < 50 kva > 75 kva Voltmeters, Ammeters and Frequency Meter Over Temperature, Low AC Output, High AC Output, AC Output Overload All copper windings, electrostatic shield The ISN Series Ferroresonant regulating transformers are housed in a single system enclosure. These units are designed to accept a widely varying AC input voltage, while simultaneously producing a well regulated, filtered AC output. ISN Series units feature the unique characteristic of being short circuit protected so that overloads and short circuits on the secondary side are not reflected back to the primary. High reliability - 05,000 hours MTBF Constructed with entirely passive magnetic components Low Audible Noise < 65 dba High /4 cycle output ride-through Compatible with non-linear loads Industrial grade - built to operate in extreme environmental conditions For use with Inverter/ systems or in stand alone operations kva AC 0 VAC Input 0 VAC 80 VAC 480 VAC Input Circuit Breaker Ampacity 0 VAC 0 VAC 80 VAC 480 VAC 0 VAC AC Output 0 VAC 40 VAC Heat Loss Dimensions Inches Dimensions Millimeters Weight BTU/hr H x W x D H x W x D lb kg ISN007 7.5 85% 86 47 7 5 60 5 0 6 4 4,56 79 x x 6,007 x 8 x 94 740 6 ISN00 0 88% 6 5 0 50 80 45 40 8 45 4 4,65 79 x x 6,007 x 8 x 94 85 74 ISN05 5 88% 67 9 5 4 5 5 70 60 5 68 6 6,979 79 x x 6,007 x 8 x 94 950 4 ISN00 0 89% 0 0 70 55 00 75 90 70 67 9 8 8,44 79 x x 6,007 x 8 x 94,5 560 ISN05 5 89% 75 50 87 69 50 50 0 90 08 4 04 0,54 79 x x 6,007 x 8 x 94,90 60 ISN00 0 90% 7 78 0 8 500 00 50 5 50 6 5,7 79 x x 6,007 x 8 x 94,645 746 ISN07 7.5 9% 404 0 8 0 600 00 75 50 70 56,654 79 x x 6,007 x 8 x 94,800 86 ISN050 50 9% 59 94 70 5 700 400 5 75 47 7 08 6,87 79.5 x x 6,09 x 8 x 94,965 89 ISN075 75 88% ------- 456 64 09 ------- 600 50 00 65 4 4,895 79.5 x 54 x 6,09 x 7 x 94,95,785 ISN00 00 90% ------- 594 44 7 ------- 800 500 50 8 454 47 7,9 79.5 x x 6,09 x 8 x 94 4,750,55 Specifications subject to change without notice 50 Hz available, contact us Alarms provide one SPDT contact rated for Amps at 0 VAC At Nominal Line Certain optional features and/or combinations may require larger cabinets. Contact us. Image shown with optional meters and breakers.

BATTERY VALIDATION SYSTEM The BTECH S5 Battery Validation System provides the most effective and reliable assurance that your system's batteries are functioning properly and are ready to perform in the event of a power outage. Unlike traditional periodic discharge testing, the BTECH S5 continuously monitors each individual battery unit. This gives more time to respond to failing batteries and to schedule the appropriate maintenance preventing the cost and lost revenue of system downtime caused by a power outage and battery plant failure. The accurate monitoring of BTECH S5 helps ensure that the battery condition is known so timely replacement of a failed battery or battery maintenance can be performed. KEY FEATURES: Unit voltage and impedance monitoring String current and voltage monitoring Pilot cell and ambient temperature monitoring Real time data reporting with the BVM software suite Predictive analytics provide advance notice of battery failures Remote centralized system monitoring capability Automated data retrieval, event logging and archiving Compatible with vented lead acid (VLA), valve regulated lead acid (VRLA) and NiCad batteries Measurement Capability: - Total Voltage: 0-600 V - Unit Voltage: 6-6 VD - Unit Impedance: 00 μω to 0mΩ Temperature: - Unit and Ambient: - F to l60 F - Differential: 5 F from default ambient Discharge Events: - Date & Time - System Voltage - Load - Removed - Unit Voltage Decay Discharging Logging: - Programmable Connection Capacity: - Total Strings: 8 - Total of Units: 50 Enclosure Type Measurement Accuracy & Repeatability: - System Voltage: ± 0.% Full Scale - Unit Voltage: ± 0.% of Reading - Unit Impedance: ± 0.0 mω - Temperature: ± l.0 F Requirements: - 0-50 VAC 50/60 Hz and 6-60 VDC, 95-45 VDC ( protected power max.0 watts) Enclosure: - SCM - 600 Controller: NEMA Metal Vertical Wall Mount (Standard) - VM4i Module: Flame Retardant ABS Rack - Mount 'ears' for 9" rack (Standard) - Vertical Wall Mount (Standard) - Wall Mount Open Frame Relay Rack Available - Wall Mounted NEMA 4 Enclosure Available LED Indicators - VM4i DCM: - Green= On LED Indicators - SCM 600 Controller: - Green= Summary No Alarms - Yellow= Summary Maintenance Alarms - Red= Summary Critical Alarms - Red Equipment= Hardware Failure - Alternating Green= Performing Measurement Software: - BVM 4.x Windows based software package - BVM Observer 4.x designed for Windows 7 or above DATA ANALYTICS WITH THE BTECH BVM SOFTWARE SUITE Communications: RS- and USB Port Connection For Local Data Acquisition Integral Ethernet Card For Remote Data Acquisition Dimensions (H x W x D) Weight Inches Millimeters lb kg NEMA 7 x 4 x 7 4 x 0 x 4 4 NEMA 4 6 x 4 x 8 94 x 607 x 0 80 6 Modbus Over TCP/IP Capable SNMP Capable 6 Programmable Dry Contacts Outputs 4 Programmable Dry Contact Inputs Reduce your maintenance cost and extend the life of the dc power plant batteries Have confidence in your dc power plant reliability Minimize the risk of revenue loss and power outage downtime Dashboard View of Battery System Status Real Time Battery System Measurements Unit/Cell Level Data Analytics AMETEK Solidstate Controls has teamed with BTECH to provide the most reliable industrial critical process systems. AMETEK Solidstate Controls' commitment to keeping their clients up and running in the event of a power outage is further enhanced with BTECH Battery Validation and Monitoring Systems. Please contact us for more information on these offerings. WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com PROVIDING CONTINUITY OF ELECTRICAL POWER REV 0/09 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.

DCR Digital Battery Charger Systems THREE PHASE INPUT VOLTAGE: 08, 80, 480, 600 VAC AMPERAGE: - 60 A OUTPUT VOLTAGE: 0, 0, 0, 40 VDC The DCR from AMETEK Solidstate Controls is a microprocessor-controlled, thyristor-based system designed for high-efficiency conversion of incoming commercial AC power to clean DC power. It is used for charging batteries while supplying power to continuous DC loads such as inverters. The rugged solid-state design utilizes SCR phase control to provide regulated, currentlimited DC power. The DCR can operate with or without batteries and is intended for use in systems. The DCR can also be used as a standalone device for batterycharging-only applications. Latest digital and power electronics technology Reliable industrial design; MTBF >05,000 hours User definable control and alarm set-points Simultaneous voltage and current readings CE safety and EMC standards compliant UL0 (UL, cul) Approved Vacuum impregnated magnetics, 00 C up to 95% Control Display With the DCR s Digital Display, you have all the vital system information right at your fingertips. The user-friendly display menu provides the link between operator, all monitoring controls and alarms. Set points for control and alarm parameters are customer configurable. The Display Features: Adjustable Backlit Status Display Charger Condition LEDs - AC On - Fault - High DC Voltage - Low DC Voltage - Charger Fail (Loss of AC Input) Soft-touch Menu Scrolling Keypad Float and Manual Equalize Controls with LEDs Lamp Test and Alarm Silence Control Consult us for additional sizes General Specifications - Standard Features Design Features SCR (Thyristor) based rectifier with double wound isolation transformer Electronic control, current limiting and voltage regulation Floating ground output Event counter retains up to 64,000 events Detailed data logging for the last 500 events Long life LED indicators Protected from phase rotation AC Input Breaker (4 kaic Minimum) DC Output Fuse DC Output Voltage DC Charger Fault (Common) Low DC Voltage Standard Indications AC ON Green LED Float Green LED Fault (Common) Alarm Red LED DC High Voltage Alarm Red LED DC Low Voltage Alarm Red LED Loss of AC Input Alarm Red LED Equalize Amber LED Control Modes Standard Protection Devices Standard Metering Standard Relays (Optional Relay) 9R 85R 6 Pulse Standard or Pulse Optional Stand Alone or Parallel (Capacity and/or Redundancy) Display Default Alarms AC Input Available Low DC Voltage Charger Loss of Communications Charger Board Reset AC Supply Fail AC Input Failure High DC Shutdown System Reset System Over Temperature DC Supply Fail Charger Bridge Over Temperature Charger Failure High DC Voltage (Optional Relay) 9R 69R 5R General Specifications - Optional Features Option Packages (Option #) LCD Indicators Communications Package (87) MODBUS RTU MODBUS over Ethernet Ethernet Web-page Capability MODBUS TCP-IP Consult us for additional Communications options AC Input Monitoring Package (88) AC Input CB Open AC Input Failure Low AC Input High AC Input Battery Monitoring Package (89) Battery Test Battery Time Remaining High DC Disconnect Low DC Disconnect Battery I & V Metering Battery Limit Battery Discharging Remote Battery Circuit Breaker Open Battery Near Exhaustion Optional Relays (Option #) Notes AC Input Failure Low AC Input AC Input CB Open High AC Input (6R) (68R) (0R) (4R) High DC Disconnect (R) Remote Battery Cicuit Breaker Open (57R) Battery Near Exhaustion (60R) Low DC Disconnect (07R) Battery Discharging (97R) Available When Package 88 is Selected Available When Package 89 is Selected General Specifications - Optional Features Optional Circuit Breakers (Option #) 65 kaic Rated AC Input Breaker (8) DC Output Breaker (0 kaic) (8) DC Output Breaker (High kaic) (8) Optional Alarms (Option #) (Optional Relay) Charger Fan Fail (0) (0R) Charger Overload (9) (9R) Charger Fuse Blown (67) (67R) Pos/Neg to Ground () (R) Charger Output Circuit Breaker open (9) (9R) Additional Options (Option #) Notes Charger Output Diode (9) Blocking diode Note: temperature compensation option disabled Auto-equalize (0) After AC power failure > 5 minutes Alarm Relay Test () Facilitate testing of the alarms through LCD screens Charger Ripple Filter (59) Extra filtering can be added to the charger for lower ripple requirements Percent Loading (5) Displays the percentage of output current being used as compared to total output current Input Metering () Optional charger AC input metering for the LCD Display. (Volts, Amps, Frequency) Equalize Inhibit (55) External potential free dry contact closure input will prevent the charger from going into equalize mode. Dual Charger Limit Control (86) Optional external input Battery Temperature Compensation (08) DC battery float voltage is adjusted based on room ambient temperature over a range of F and 04 F (0 C to +40 C) Latching Alarms (8) Requires manual reset Additional Relays Additional relay contacts (maximum of 5 allowed) General Specifications - Performance Electrical Specifications AC Input Available Voltages: -phase: 08, 80, 480, 600 (± 0%) Frequency: 50 or 60 Hz (± 5%) DC Output Ripple (RMS) Enclosure Cable Entry Finish Cooling Mechanical Specifications Nominal voltages: 0, 0, 0, 40 VDC (± 0.5% Float, ±.0% Equalize) Unfiltered Units: < % with battery connected Filtered: 0.% with battery connected NEMA (IP0), 4 GA ( mm) steel with hinged front access door and drip shield Top or Bottom Optional Mechanical Features (Option #) Standard Powder Coat ANSI 6, Light Gray Convection cooling up to 50 A Output Lifting Eye Bolts (05) Key-lockable Enclosure (59) Pad Lockable Breakers (9) IP- Rated Cabinet w/optional Drip Shield (65) 0% Spare Alarm Terminals (96) DC Rated Alarm Contacts (7) Conformal Coating of PC Boards (7) Space Heater (88) Fungus/moisture spay (70) Labeling in Other Languages Audible Noise Operating Temp Storage Temp Operating Humidity Altitude Environmental 65-7 db(a) at feet ( meter) at half equipment height F to 04 F (-0 C to +40 C), To 55 C with derate -4 F to 58 F (-0 C to 70 C) Up to 95% (Non-condensing) 0,000 feet (,048 meters) without derate Cabinet Type Dimensions Inches Millimeters FS H x W x D 48 x 4 x 4,0 x 60 x 60 FS H x W x D 79 x x 6,007 x 8 x 95 The drip shield adds 5 in (7 mm) to the height Limit: 00 = 00% Limit, 5 = 5% Limit Specifications subject to change. Consult us for lead times, optional packages and additional information

Output Amps DC Volts AC/DC % 0/0 VDC Output Φ AC Input/Frequency Circuit Breaker Ampacity Cabinet Heat Loss Weight AC Amps/Phase Main AC Input (BTU/hr) DC Output 08/60 480/60 08/60 480/60 lb kg DCR-0-00- 5 0 9 0 9 FS,97 45 5 5 40 9 DCR-0-0040- 5 40 0 9 5 FS,60 60 5 5 40 95 DCR-0-0050- 5 50 0 9 FS,05 70 40 0 450 04 DCR-0-006- 5 6 0 9 9 7 FS,55 80 50 5 485 0 DCR-0-0080- 5 80 0 9 49 FS,40 0 70 0 50 6 DCR-0-000- 5 00 0 9 6 7 FS 4,050 50 80 5 540 45 DCR-0-05- 5 5 0 9 76 FS 4,449 75 00 45 65 95 DCR-0-060- 5 60 0 9 97 4 FS 4,9 5 5 60 760 45 DCR-0-000- 5 00 0 9 5 FS 6,6 00 75 70 880 99 DCR-0-050- 5 50 0 9 5 65 FS 7,705 50 00 90,00 499 DCR-0-00- 5 0 0 94 9 8 FS 8,6 500 50 0,5 560 DCR-0-0400- 5 400 0 95 6 0 FS 8,69 600 00 50,40 608 DCR-0-0500- 5 500 0 95 95 8 FS 0,775 600 400 75,85 8 DCR-0-060- 5 60 0 95 7 6 FS,576 800 500 00,000 907 Output Amps DC Volts AC/DC % 0/40 VDC Output Φ AC Input/Frequency Circuit Breaker Ampacity Cabinet Heat Loss Weight AC Amps/Phase Main AC Input (BTU/hr) DC Output 08/60 480/60 08/60 480/60 lb kg DCR-40-00- 5 40 9 40 7 FS,59 45 50 5 490 DCR-40-0040- 5 40 40 9 49 FS,40 60 70 0 50 DCR-40-0050- 5 50 40 9 6 7 FS 4,050 70 80 5 55 4 DCR-40-006- 5 6 40 9 78 4 FS 5,0 80 00 45 560 54 DCR-40-0080- 5 80 40 9 99 4 FS 6,479 0 5 60 60 77 DCR-40-000- 5 00 40 9 54 FS 8,008 50 75 70 650 95 DCR-40-05- 5 5 40 9 5 66 FS 8,90 75 00 90 70 7 DCR-40-060- 5 60 40 9 9 84 FS 9,86 5 50 0,0 469 DCR-40-000- 5 00 40 9 4 05 FS,8 00 50 50,6 60 DCR-40-050- 5 50 40 9 0 FS 5,409 50 400 75,470 667 DCR-40-00- 5 0 40 94 8 66 FS 6,76 500 500 5,68 74 DCR-40-0400- 5 400 40 95 47 05 FS 7,4 600 600 00,70 780 DCR-40-0500- 5 500 40 95 59 56 FS,55 700 800 50,685,8 Dimensions Cabinet Type Dimensions Inches Millimeters FS 4 (H x W x D) 48 x 4 x 4,0 x 60 x 60 FS (H x W x D) 79 x x 6,007 x 8 x 95 Custom sizes available, please contact us Circuit breakers are sized for a minimum of 5% rated current Unit weight corresponds to 60 Hz configuration, consult us for 50 Hz unit weights 4 The drip shield adds 5 in (7 mm) to the height 5 Designation System DCR 0 000 480 60 06 00 B A B C D E F G H I A Indicates Base B Indicates DC Output Voltage 0 = 0 VDC, 40 = 40 VDC C Indicates DC Output 00 = A, 060 = 60 A D Indicates AC Input Voltage 480 = 480 VAC, 80 = 80 VAC E Indicates number of Input Phases = Phase F Indicates Input Frequency 60 = 60 Hz, 50 = 50 Hz G Indicates Charger configuration 06 = 6 Pulse Charger, = Pulse Charger H Indicates Limit 00 = 00% Limit, 5 = 5% Limit I Indicates Customization B = Base, C = Custom WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com REV /08 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.

FUSIBLE PANELBOARDS When fast, reliable short circuit protection is the problem, the line of Fusible Panelboards from AMETEK Solidstate Controls is the right solution. Fusible Panelboards (FPB) from Solidstate Controls are designed especially for critical power distribution in Uninterruptible Supply system and inverter applications. They are the most reliable method to ensure that one faulted circuit will not cause any adverse affects on any other branches. The Fusible Panelboards Feature: Extremely fast, semi-conductor (current limiting) fuses for sub-cycle fault clearing Flexible configuration enables up to 0 amperes per circuit Blown fuse indicators UL Listed Properly coordinated fuse/breaker clearing times for critical and Inverter applications Lockable, secure door to restrict unauthorized access All dead-front construction UltraSafe fuse holder Suitable for solid-state load protection Accommodates all standard midget size fuses Provides both high speed branch circuit fault Available Voltage Ratings - 0, -phase, -wire - 0/40, -phase, -wire - 0/08, -phase, 4-wire Available Bus Ratings - 00 Amperes - 5 Amperes - 400 Amperes Mains Connection - Main Lugs Standard - Main Breaker available as option Enclosure Dimensions General Specifications Branch Circuits - Series connected current limiting fuses and molded case (0 amp) breaker; accepts #4-#4 awg wire - Connected line to neutral consult us for other configurations - 0 kaic fault interrupting rating standard; consult us for higher short circuit ratings - Available with, 4, 6 or 4 branch circuits ( circuits not available on 400 amp panels) Available Fuse Sizes Inches H x W x D Millimeters H x W x D - 5, 0, 5, 0, 5 or 0 amperes; accepts #4-#6 awg wire - Any combination of fuse sizes can FPB 6 x 8 x 5.75 94 x 7 x 46 be accommodated (total number of fuses cannot exceed total number of branch circuits) FPB FPB 48 x 8 x 5.75 60 x 8 x 5.75,9 x 7 x 46,54 x 7 x 46 The FPB series model number can be configured using the following parameters: FPB4 7 x 8 x 5.75,89 x 7 x 46 Voltage Rating, Ampere rating, # of branch circuits, Main connection. Note: Panels rated 0/40 -wire or 0/08 4-wire utilize all single-pole branch circuits. Consult us for -pole or -pole applications. Ampere Rating Code of Branch Circuits Code Structure: FPBXXX-YY-ZZZ-A Where: XXX= amp rating; YY= # of branch circuits; ZZZ= voltage rating; A= mains connection Voltage Rating Code Mains Connection Code 00 00 0 0 Lugs Breaker 5 5 4 4 0/40 40 L B 400 400 6 6 0/08 08 4 4 Example: FPB00--40-B: 00 amp Panel with circuits. 0/40 volts, main breaker Ampere Rating 0 and 0/40 Rated Panels (Main Breaker) of Circuits Enclosure Main Input Lug Size Weight 00 FPB #4-/0 56 00 4 FPB #4-/0 64 74 00 6 FPB #4-/0 70 77 00 4 FPB #4-/0 5 0 5 FPB #6-00 kcmil 4 56 5 4 FPB #6-00 kcmil 65 74 5 6 FPB #6-00 kcmil 7 78 5 4 FPB #6-00 kcmil 7 0 400 4 FPB 500-750 kcmil 77 80 400 6 FPB 500-750 kcmil 79 8 400 4 FPB4 500-750 kcmil 4 06 lb kg Ampere Rating 0 and 0/40 Rated Panels (Main Lugs) of Circuits Enclosure Main Input Lug Size Weight 00 FPB #4-/0 56 00 4 FPB #4-/0 64 74 00 6 FPB #4-/0 70 77 00 4 FPB #4-/0 5 0 5 FPB #6-00 kcmil 4 56 5 4 FPB #6-00 kcmil 65 74 5 6 FPB #6-00 kcmil 7 78 5 4 FPB #6-00 kcmil 7 0 400 4 FPB 500-750 kcmil 77 80 400 6 FPB 500-750 kcmil 79 8 400 4 FPB 500-750 kcmil 4 06 Ampere Rating 0/08 Rated Panels (Main Breaker) of Circuits Enclosure Main Input Lug Size lb Weight 00 FPB #4-/0 56 00 4 FPB #4-/0 64 74 00 6 FPB #4-/0 70 77 00 4 FPB #4-/0 5 0 5 FPB #6-00 kcmil 4 56 5 4 FPB #6-00 kcmil 65 74 5 6 FPB #6-00 kcmil 7 78 5 4 FPB #6-00 kcmil 7 0 400 4 FPB 500-750 kcmil 77 80 400 6 FPB 500-750 kcmil 79 8 400 4 FPB4 500-750 kcmil 4 06 Ampere Rating 0/08 Rated Panels (Main Lugs) of Circuits Enclosure Main Input Lug Size lb Weight 00 FPB #4-/0 56 00 4 FPB #4-/0 64 74 00 6 FPB #4-/0 70 77 00 4 FPB #4-/0 5 0 5 FPB #6-00 kcmil 4 56 5 4 FPB #6-00 kcmil 65 74 5 6 FPB #6-00 kcmil 7 78 5 4 FPB #6-00 kcmil 7 0 400 4 FPB 500-750 kcmil 77 80 400 6 FPB 500-750 kcmil 79 8 400 4 FPB 500-750 kcmil 4 06 lb kg kg kg

BACK RIPPLE CHOKE FILTERS As your system ages, an induced kickback AC ripple current and voltage may appear on the DC bus between the battery system and. Over time this may result in the deterioration of the capacitors and other components of your. Battery manufactures suggest that excessive AC ripple current on the DC bus can adversely affect the life and performance of batteries. Typically the AC ripple current on the DC bus should not exceed 5% of the amp hour rating of the batteries. Protect your equipment from ripple current with the a Ripple Choke Filter. We recommend regularly scheduled preventative maintenance, including the 0 year PM (PM 0), which will replace the DC capacitors and mitigate the AC ripple. If the replacement of DC capacitors does not reduce the AC ripple current to the desired level, then a RC Series AC Ripple Filter should be installed to further reduce AC ripple. RC SERIES Part Reference Size 5 kva 7.5 kva 0 kva 5 kva 0 kva 0 kva AMETEK Solidstate Controls Ripple Choke Filters are designed to help reduce the AC ripple current kickback that exists in battery chargers, inverters and systems. This will help your batteries last longer, spare sensitive electronics the deterioration an excessive ripple current can cause and reduce electrical noise. 40 kva 50 kva Choke Size Bus Voltage Cabinet Dimensions Weight H x W x D Inches H x W x D Millimeters lb kg 50 A 0 VDC 6 x 4 x 0 66 x 60 x 508 60 8 50 A 40 VDC 6 x 4 x 0 66 x 60 x 508 60 8 50 A 40 VDC 6 x 4 x 0 66 x 60 x 508 60 8 00 A 0 VDC 6 x 4 x 0 66 x 60 x 508 70 50 A 40 VDC 6 x 4 x 0 66 x 60 x 508 60 8 00 A 0 VDC 6 x 4 x 0 66 x 60 x 508 70 00 A 40 VDC 6 x 4 x 0 66 x 60 x 508 70 00 A 0 VDC 6 x 4 x 0 66 x 60 x 508 00 46 00 A 40 VDC 6 x 4 x 0 66 x 60 x 508 70 00 A 0 VDC 6 x 4 x 0 66 x 60 x 508 00 46 lb 00 A 40 VDC 6 x 4 x 0 66 x 60 x 508 00 46 00 A 0 VDC 6 x 4 x 0 66 x 60 x 508 5 57 00 A 40 VDC 6 x 4 x 0 66 x 60 x 508 00 46 400 A 0 VDC 6 x 4 x 0 66 x 60 x 508 5 48 00 A 40 VDC 6 x 4 x 0 66 x 60 x 508 5 57 500 A 0 VDC 6 x 4 x 0 66 x 60 x 508 5 48 Notes: a. The size of the AC Ripple Filter is determined based on your Size and DC bus voltage configuration. Refer to the table to select the part number for the desired AC Ripple Filter. b. The AC Ripple Filter comes standard with a disconnect breaker. As an option, the filter can be supplied without a breaker. c. The Solidstate Controls AC Ripple Filter is designed as a floor mount installation d. Installation, wiring and conduit sized and installed by customer within 50 of the Battery System and 50 of the Inverter. WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Middle East Asia Pacific India Brazil Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. PROVIDING CONTINUITY OF ELECTRICAL POWER WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS. REV /08

RMBS/RMBS-T Remote Manual Bypass Switch with isolation transformer option SINGLE PHASE - 00 kva THREE PHASE 0-00 kva Solidstate Controls RMBS Series, Remote Manual Bypass Switch (RMBS) is a -position switch that allows for complete isolation of a or inverter in order to perform routine or emergency maintenance on the equipment. The RMBS-T unit includes an isolation transformer that isolates the bypass supply. Depending on your equipment line up and space constraints, you may consider combining your transformer and RMBS to create an all-in-one, consolidated unit. The load is temporarily transferred from the inverter () onto the bypass (alternate) AC power source. This make-before-break switch is designed to transfer between two in-sync sources to enable a zerobreak transfer in both directions, so there is no disruption of power to the connected load(s). -Position: Offers Complete Isolation Make-Before-Break Industrial Grade NEMA- (IP-0) Wall Mounted Enclosure for the RMBS unit or a cabinet for the RMBS-T unit Long Life LED Indicators Wide Variety of and Voltage Ratings Available Isolation transformer option available Note: Cover photo is RMBS-T, inside photo is RMBS RMBS Specifications kva Rating Voltage Nominal Switch Enclosure Dimensions H x W x D Weight Optional Breaker Rating Inches Millimeters lb kg Ratings RS00MB- 0, -PH 5 50 A 4 x 4 x 0 60 x 60 x 54 85 9 0 A RS050MB- 5 0, -PH 4 85 A 4 x 4 x 0 60 x 60 x 54 85 9 60 A RS075MB- 7.5 0, -PH 6 85 A 4 x 4 x 0 60 x 60 x 54 85 9 80 A RS00MB- 0 0, -PH 8 0 A 4 x 4 x 0 60 x 60 x 54 85 9 5 A RS50MB- 5 0, -PH 5 00 A 8 x 4 x 4 7 x 60 x 56 00 45 75 A RS00MB- 0 0, -PH 67 55 A 8 x 4 x 4 7 x 60 x 56 00 45 5 A RS00MB- 0 0, -PH 50 400 A 4 x x 5 864 x 8 x 8 50 68 50 A RS400MB- 40 0, -PH 50 A 4 x x 5 864 x 8 x 8 50 68 500 A RS500MB- 50 0, -PH 47 600 A 4 x x 7 864 x 8 x 4 60 7 600 A RS600MB- 60 0, -PH 500 765 A 4 x x 7 864 x 8 x 4 75 79 Contact us RS750MB- 75 0, -PH RS000MB- 00 0, -PH For this information please contact your sales representative RS00MB-4 0/40, Split PH 50 A 4 x 4 x 0 60 x 60 x 54 85 9 0 A RS050MB-4 5 0/40, Split PH 50 A 4 x 4 x 0 60 x 60 x 54 85 9 0 A RS075MB-4 7.5 0/40, Split PH 50 A 4 x 4 x 0 60 x 60 x 54 85 9 40 A RS00MB-4 0 0/40, Split PH 4 85 A 4 x 4 x 0 60 x 60 x 54 85 9 60 A RS50MB-4 5 0/40, Split PH 6 85 A 4 x 4 x 60 x 60 x 0 00 45 80 A RS00MB-4 0 0/40, Split PH 8 0 A 4 x 4 x 60 x 60 x 0 00 45 5 A RS00MB-4 0 0/40, Split PH 5 00 A 8 x 4 x 4 7 x 60 x 56 5 57 75 A RS400MB-4 40 0/40, Split PH 67 55 A 8 x 4 x 4 7 x 60 x 56 5 57 5 A RS500MB-4 50 0/40, Split PH 08 400 A 4 x x 5 864 x 8 x 8 50 68 00 A RS600MB-4 60 0/40, Split PH 50 400 A 4 x x 5 864 x 8 x 8 75 79 50 A RS750MB-4 75 0/40, Split PH 400 A 4 x x 7 864 x 8 x 4 75 79 400 A RS000MB-4 00 0/40, Split PH For this information please contact your sales representative RS00MB- 0, -PH 4 50 A 4 x 4 x 0 60 x 60 x 54 85 9 0 A RS050MB- 5 0, -PH 50 A 4 x 4 x 0 60 x 60 x 54 85 9 0 A RS075MB- 7.5 0, -PH 4 50 A 4 x 4 x 0 60 x 60 x 54 85 9 50 A RS00MB- 0 0, -PH 45 85 A 4 x 4 x 0 60 x 60 x 54 85 45 60 A RS50MB- 5 0, -PH 68 85 A 4 x 4 x 0 60 x 60 x 54 00 45 90 A RS00MB- 0 0, -PH 9 0 A 4 x 4 x 0 60 x 60 x 54 00 68 5 A RS00MB- 0 0, -PH 6 00 A 8 x 4 x 4 7 x 60 x 56 50 68 75 A RS400MB- 40 0, -PH 8 55 A 8 x 4 x 4 7 x 60 x 56 50 79 50 A RS500MB- 50 0, -PH 7 400 A 4 x x 5 864 x 8 x 8 75 79 00 A RS600MB- 60 0, -PH 7 400 A 4 x x 5 864 x 8 x 8 75 79 50 A RS750MB- 75 0, -PH 4 50 A 4 x x 5 864 x 8 x 8 75 79 500 A RS000MB- 00 0, -PH 455 600 A 4 x x 7 864 x 8 x 4 75 79 600 A RS00MB-0 0 08/0, -PH 8 50 A 4 x 4 x 60 x 60 x 0 00 45 40 A RS50MB-0 5 08/0, -PH 4 85 A 4 x 4 x 60 x 60 x 0 00 45 60 A RS00MB-0 0 08/0, -PH 56 85 A 4 x 4 x 60 x 60 x 0 00 45 70 A RS00MB-0 0 08/0, -PH 8 0 A 4 x 4 x 60 x 60 x 0 5 57 5 A RS400MB-0 40 08/0, -PH 00 A 4 x 4 x 4 60 x 60 x 56 5 57 50 A RS500MB-0 50 08/0, -PH 9 00 A 8 x 8 x 4 60 x 60 x 56 5 57 75 A RS600MB-0 60 08/0, -PH 67 55 A 8 x 8 x 4 60 x 60 x 56 65 75 5 A RS750MB-0 75 08/0, -PH 08 400 A 4 x x 7 864 x 8 x 4 65 75 00 A RS000MB-0 00 08/0, -PH For this information please contact your sales representative RS00MB-8 0 80/0, -PH 5 50 A 4 x 4 x 60 x 60 x 0 00 45 0 A RS50MB-8 5 80/0, -PH 50 A 4 x 4 x 60 x 60 x 0 00 45 0 A RS00MB-8 0 80/0, -PH 0 50 A 4 x 4 x 60 x 60 x 0 00 45 40 A RS00MB-8 0 80/0, -PH 46 85 A 4 x 4 x 60 x 60 x 0 5 57 60 A RS400MB-8 40 80/0, -PH 6 85 A 4 x 4 x 60 x 60 x 0 5 57 80 A RS500MB-8 50 80/0, -PH 76 0 A 4 x 4 x 60 x 60 x 0 5 57 00 A RS600MB-8 60 80/0, -PH 9 0 A 4 x 4 x 60 x 60 x 0 65 75 5 A RS750MB-8 75 80/0, -PH 4 00 A 4 x 4 x 4 60 x 60 x 56 65 75 50 A RS000MB-8 00 80/0, -PH 5 00 A 4 x 4 x 4 60 x 60 x 56 65 75 00 A RS00MB-48 0 480/77, -PH 50 A 4 x 4 x 60 x 60 x 0 00 45 0 A RS50MB-48 5 480/77, -PH 8 50 A 4 x 4 x 60 x 60 x 0 00 45 5 A RS00MB-48 0 480/77, -PH 4 50 A 4 x 4 x 60 x 60 x 0 00 45 40 A RS00MB-48 0 480/77, -PH 6 50 A 4 x 4 x 60 x 60 x 0 5 57 50 A RS400MB-48 40 480/77, -PH 48 85 A 4 x 4 x 60 x 60 x 0 5 57 70 A RS500MB-48 50 480/77, -PH 60 85 A 4 x 4 x 60 x 60 x 0 5 57 80 A RS600MB-48 60 480/77, -PH 7 0 A 4 x 4 x 60 x 60 x 0 65 75 00 A RS750MB-48 75 480/77, -PH 90 0 A 4 x 4 x 60 x 60 x 0 65 75 5 A RS000MB-48 00 480/77, -PH 0 00 A 8 x 4 x 4 7 x 609 x 56 65 75 75 A RMBS-T Specifications 4 kva Size Input Voltage Output Voltage Weight lb kg RST00MB kva 08, 480, 600 0 765 47 RST050MB 5 kva 08, 480, 600 0 760 45 RST075MB 7.5 kva 08, 480, 600 0 760 45 RST00MB 0 kva 08, 480, 600 0 760 45 RST50MB 5 kva 08, 480, 600 0 760 45 RST00MB 0 kva 08, 480, 600 0 850 86 RST00MB 0 kva 08, 480, 600 0 955 4 RST400MB 40 kva 08, 480, 600 0,050 476 RST500MB 50 kva 08, 480, 600 0,050 476 RST600MB 60 kva 08, 480, 600 0,70 5 RST750MB 75 kva 08, 480, 600 0,00 544 RST800MB 80 kva 08, 480, 600 0,5 60 RST000MB 00 kva 08, 480, 600 0,5 60 RST00MB 0 kva 08, 480, 600 08, 480 770 49 RST50MB 5 kva 08, 480, 600 08, 480 770 49 RST00MB 0 kva 08, 480, 600 08, 480 770 49 RST00MB 0 kva 08, 480, 600 08, 480 850 86 RST400MB 40 kva 08, 480, 600 08, 480,05 465 RST500MB 50 kva 08, 480, 600 08, 480,95 587 RST600MB 60 kva 08, 480, 600 08, 480,95 587 RST750MB 75 kva 08, 480, 600 08, 480,45 60 RST800MB 80 kva 08, 480, 600 08, 480,550 70 RST000MB 00 kva 08, 480, 600 08, 480,550 70 Denotes U.L. Rating Eaton Breakers Available for RMBS-T 480 input voltage option only 4 All RMBS-T enclosure dimensions are: 79 x x 6 inches (,007 x 8 x 94 millimeters) Specifications subject to change without notice Consult us for sizes not listed

General Specifications Standard Features Optional Features (Option #) Nema- (IP-0) wall mounted enclosure for the RMBS models and a cabinet for the RMBS-T models ANSI 6 light gray -positions for complete isolation: Normal-load fed from Inverter () Bypass (test)-load fed from bypass source through RMBS Isolation-load fed from utility, completely isolating the RMBS and inverter Indicating lights for: In-sync Bypass source available Normal source available Lamp test push button Clearance for top cable entry - contact us for bottom entry requirements (RMBS only) cable connections made to copper bus bars, allowing greater cable bending radius Isolation transformer (RMBS-T only) Top and bottom cabinet entry (Standard on RMBS-T models) Padlockable handle to lock switch in a position Solenoid (electronic) interlock to prevent switch operation if inverter and bypass source are not in sync Output circuit breaker Bypass source input circuit breaker Padlockable breakers Aux contacts for CBs Indicating light package; includes: Not in sync Switch in normal source to load Switch in bypass to load Switch in isolation bypass Voltmeter with selector switch to indicate: Normal input Bypass input AC output voltage Eaton breakers: Available in high kaic ratings. (S800P) (S800L) (8) (95) (9) (45) (90) (89) Remote Manual Bypass Switch One Line Diagram Specifications subject to change without notice WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com REV /08 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.

SERVER CONTROL SOFTWARE Maintain control of the most complex remote pumping stations with stateof-the-art server control software. This enhanced Uninterruptible Supply () system software is designed to help operators maintain control of complex remote pumping stations. The software is equipped with the following capabilities: Control of up to four groups of four servers (6 total) Ability to shutdown servers in a predetermined order Ability to test server shutdown functionality from the Web interface Alerts based on customer preference Retrieves,000 Event Data Log over TCP/IP using a Web interface Total system time synchronization Network Time Protocol (NTP) UNSAFE SHUTDOWNS POSE PROBLEMS Improper sequencing of pump valve shutdown protocols can lead to problems, such as, valves not activating causing a rupture in the pipelines. As the system approaches the design life of the backup battery duration and eventual power loss, the control systems deployed at a pumping station or pipeline control mechanism may malfunction. THE SOLUTION AMETEK Solidstate Controls' IntelliShed provides the system with the capability to monitor your system and control server shutdown protocols based on real time information of battery life. This software package allows users to program battery specifications and calculates, in real time, the estimated battery time remaining during the backup operation (battery discharge cycles). The communicates constantly with all servers in the circuit and if a backup power situation arises, the will determine when, and in what sequence the servers are to power down. As a failsafe mode, the also times out servers based on a pre-determined time interval to eliminate any chance of premature server power failure. Dashboard allows for full control of all server protocols IntelliShed s real time system monitoring WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com PROVIDING CONTINUITY OF ELECTRICAL POWER REV /08 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.

REMOTE MONITORING SOFTWARE View remotely monitors your AMETEK Solidstate Controls digital inverter, charger/rectifier or Uninterruptible Supply () System, giving you a real-time view of the health and status of your power quality system. The user-friendly communication package operates as an interactive and secure web interface, monitoring multiple units from any web enabled device. View enhanced online capabilities include: Annunciation of system measurements and status on the Homepage or Web browser tab Extended data logging, including event description, time and date stamping and system readings Single-click navigation to user-configured alarms and system settings Report generation of Data Logs, Battery History Logs and Battery Test Logs Pause and Play capabilities to freeze momentary data Access to snapshots of all Data Log parameters MONITOR YOUR SYSTEM View allows the user to completely monitor and maintain familiarity with their systems. The Homepage for each system displays the unique system configuration, active alarms and critical system measurements. The View Homepage will react to the data it is collecting, accented by a green background during normal system operation and red when a system is experiencing trouble. The interface supports multi-system monitoring, annunciating trouble in a specific system on its corresponding Web browser tab. NAVIGATE SIMPLY Easily navigate through the interactive View Web interface by simply clicking one of the buttons on the Homepage. Monitor all enabled alarms and meters and their current status. Open data history logs in new web pages to maintain records locally or troubleshoot your system. All logs are capable of being exported and generated as a report. Observe communication between the Web browser and the server through an I/O Terminal. Control the polling of information from the server using the Pause/ Play Button. When the polling is active, the system readings will be updated every seconds. TRACK HISTORY Track events through View s extensive Data History Logging Features. Retain battery history and statistics through the use of a detailed Battery History Log. Generate Battery Test reports WORLD HEADQUARTERS 875 Dearborn Drive Columbus, Ohio 4085 Phone: +-64-846-7500 Toll Free: +-800-65-700 Fax: +-64-885-990 GLOBAL OFFICES LOCATED IN Mexico Asia Pacific Brazil Middle East India Argentina WEBSITE www.solidstatecontrolsinc.com EMAIL SCI.sales@AMETEK.com PROVIDING CONTINUITY OF ELECTRICAL POWER REV /08 THE PURPOSE OF OUR BUSINESS IS TO PROVIDE CONTINUITY OF ELECTRICAL POWER TO KEEP BUSINESSES IN BUSINESS. WE DO THIS BY HELPING CLIENTS SOLVE THEIR POWER PROBLEMS AND BY CREATING THE MOST ECONOMICAL LONG-TERM RESULTS.