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 Power Supply (UPS)
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 1962. 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/3DPP
UPS
3DPP/IEC
UPS
DSE
UPS
DPP/3DPP
The Digital ProcessPower (DPP) Uninterruptible Power
Supply (UPS) system from AMETEK Solidstate Controls is a
true on-line, double conversion UPS 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.
DPI/3DPI
INVERTER
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
Power Supply System
DSS
INVERTER
DVS REGULATING
TRANSFORMER
ISN REGULATING
TRANSFORMER
BTECH® S5™
BATTERY MONITOR
DPP SINGLE PHASE 5 - 100 kVA
3DPP THREE PHASE 10 - 225 kVA
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3DPP/IEC
The three phase Digital ProcessPower Uninterruptible
Power Supply (UPS) system from AMETEK Solidstate
Controls is a true on-line, double conversion UPS 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
INTELLISHED
SOFTWARE
UPSVIEW
SOFTWARE
NUCLEAR
SERVICE
The 3DPP is designed for process control and industrial
applications and offers better isolation and faster, more
accurate signals between processors.
Industrial Pulse Width Modulated
Uninterruptible Power Supply
System IEC Compliant
THREE PHASE 10 - 225 kVA
2
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DSE
DSS
The DSE Uninterruptible Power Supply (UPS) system
from AMETEK Solidstate Controls combines the best of
both worlds:
Digitally Controlled
Ferroresonant Industrial
Uninterruptible Power
Supply System
SINGLE PHASE 3 - 50 kVA
The DSS Inverter from AMETEK Solidstate Controls
combines the best of both worlds:
(1) T
he reliability and robust design of a Ferroresonant UPS
(1) The reliability and robust design
of a Ferroresonant Inverter
(2) T
he digital control and communications typically found
only in Pulse Width Modulation products
(2) The digital control and communications typically found
only in Pulse Width Modulation (PWM) products
he DSE is a true on-line, double conversion UPS system
T
that provides continuous, clean, regulated power for critical
AC loads. Designed s pecifically for process control and
harsh industrial applications, the DSE combinesdigital
control for enhanced communications, monitoring, control
and diagnostics capabilities with proven ferroresonant
transformer design. T
he DSE also includes the LCD panel
and user-friendly touch screen display found in our Digital
ProcessPower systems for the ultimate in user control.
he DSS is a true on-line inverter system t hat provides
T
continuous, clean, regulated power for critical AC
loads. Designed s pecifically for process control and
harsh industrial applications, the DSS combinesdigital
control for enhanced communications, monitoring,
and diagnostics capabilities with proven ferroresonant
transformer design. T
he DSS also includes the LCD panel
and user-friendly touch screen display found in our Digital
ProcessPower systems for the ultimate in user control.
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DPI/3DPI
Digitally Controlled
Ferroresonant
Industrial Inverter
SINGLE PHASE 3 - 50 kVA
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DVS
The Digital ProcessPower 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 - 100 kVA
3DPI THREE PHASE 10 - 125 kVA
4
Regulating Transformer
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SINGLE PHASE 5 - 225 kVA
THREE PHASE 10 - 225 kVA
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ISN
DCR
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 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 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 UPS systems. The DCR can also be used as a stand-alone
device for battery-charging-only applications.
Digital Battery Charger Systems
THREE PHASE INPUT VOLTAGE:
208, 380, 480, 600 VAC
Current-Limited Regulating
Transformer
7.5 - 100 kVA
AMPERAGE:
32 - 630 A
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BTECH® S5™
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.
6
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•CE safety and EMC
standards compliant
•UL1012 (UL, cUL) Approved
•Vacuum impregnated
magnetics, 200˚C
•Efficiency up to 95%
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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.
BATTERY VALIDATION SYSTEM
OUTPUT VOLTAGE:
110, 120, 220, 240 VDC
• Latest digital and power
electronics technology
• Reliable industrial design;
MTBF >205,000 hours
• User definable control and
alarm set-points
• Simultaneous voltage and
current readings
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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 Power 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.
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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 UPS
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 Power Supply (UPS) 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 (16 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 2,000 Event Data Log over TCP/IP using a Web
interface
• Total system time synchronization – Network Time
Protocol (NTP)
RC Series
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RMBS/RMBS-T
SERVER CONTROL SOFTWARE
Solidstate Controls RMBS Series, Remote Manual Bypass
Switch (RMBS) is a 3-position switch that allows for complete
isolation of a UPS or inverter in order to perform routine or
emergency maintenance on the equipment.
UPSView remotely monitors your AMETEK Solidstate
Controls digital inverter, charger/rectifier or Uninterruptible
Power Supply (UPS) System, giving you a real-time view of
the health and status of your power quality system.
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 user-friendly communication package operates as an
interactive and secure web interface, monitoring multiple
units from any web enabled device. UPSView 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
Remote Manual Bypass Switch
with isolation transformer option
THREE PHASE 10 - 100 kVA
8
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UPSVIEW
The load is temporarily transferred from the inverter (UPS)
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).
SINGLE PHASE 3 - 100 kVA
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• Access to snapshots of all Data Log parameters
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REMOTE MONITORING SOFTWARE
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SERVICE OPTIONS
NUCLEAR
The Nuclear Power 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 1E Safety
Related product upgrades.
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
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.
Basic
CSA1
CSA+1
Pre-Inspection Interview
Annually
Annually
Annually
Post-Inspection Interview
Annually
Annually
Annually
Detailed Service Report
Annually
Annually
Annually
UPS/Inverter/Charger Services
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.
Visual Inspection
Website
Every 5 Years
Annually
Annually
Every 5 Years
Annually
Annually
Infrared Scanning/Thermal Imaging
Optional
Annually
Annually
Battery Inspection & Continuity Test
Basic
CSA
CSA+
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
Basic
CSA
CSA+
Waived
Waived
Waived
Not Specified
72 Hours2
24 Hours2
Waived
Waived
Waived
Only PM parts covered
All Parts in System
All Parts in System
Transformers (Less than 20 years)
No Coverage
Covered
Covered
Travel and Living Expenses
Billed at cost
Covered
Covered
Standard Rates
Covered
Covered
$350 each
$175 each
No Cost
Basic
CSA
CSA+
Emergency Service Fee
Guaranteed Emergency Response Time
Minimum Repair Service Cost per Repair Trip
Parts Covered Under Warranty
Labor
Replacement System Manuals
Financial Benefits
Spare Parts Discount
Annualized Pricing
Discount on Training Seminars
1
2
ALL PRODUCT BROCHURE
CSA+
Annually
Scheduled Parts Replacement
Parts and Service Coverage
10
CSA
Annually
System Operational and Functional Testing
Visual Inspection
Back
Basic
Annually
5%
15%
20%
Included
Included
Included
None
25%
50%
CSA and CSA+ meet factory recommended guidelines for preventative maintenance
System restored to safe and stable condition
ALL PRODUCT BROCHURE
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WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 04/2021
12
ALL PRODUCT BROCHURE
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DPP/3DPP
DIGITAL
PROCESS
POWER
Industrial Pulse Width Modulated
Uninterruptible Power Supply System
DPP SINGLE PHASE 5-100 kVA
3DPP THREE PHASE 10-225 kVA
The Digital ProcessPower
(DPP) Uninterruptible Power
Supply (UPS) system from
AMETEK Solidstate Controls is a
true on-line, double conversion
UPS 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 UPS
• 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 ProcessPower has lower
audible noise
The Power Behind the Process
PROCESSPOWER
UPS 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 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)
*Standard LED Indicators: UPS Normal and UPS Trouble
New Option! The Slimmer DPP
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 UPS systems!
Width 24" x Depth 27.5" x Height 79"
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
208, 480 VAC
AC Input Breaker
AC Input Phase
3Ø
Bypass Input Breaker
AC Input Frequency
60/50 Hz
Battery Input Breaker
AC Voltage Tolerance
± 10%
Optional AC Output Breaker
DC Bus Voltage
125, 240 VDC
Optional AC Output Breaker
Output Parameters
Top-Cable Entry ONLY
Output Power
5-20 kVA
6 or 12-Pulse Rectifier/Charger
Power Factor
0.8
Make-Before-Break Static Switch
AC Output Voltage
120 VAC
Optional Remote Manual Bypass Switch (3 position)1
AC Output Phase
1Ø
AC Output Frequency
60/50 Hz
1
Manual Bypass Switch must be in external enclosure
with this cabinet style
BACK
DPP Specifications
0.8 Load Power Factor at Rated kVA 120 VDC (60 Lead Acid Battery Cells)
Model
Number
DPP005-3
DPP007-3
DPP010-3
DPP015-3
DPP020-3
DPP030-3
DPP040-3
DPP050-3
Rated Output
Power
Max DC
Current
kVA
kW
AC-DC
DC-AC
480/60
208/60
380/50
@ 1.75 VPC
120
220
240
UPS
Cabinet
Style
5
7.5
10
15
20
30
40
50
4
6
8
12
16
24
32
40
92%
92%
92%
92%
93%
93%
93%
93%
87%
87%
87%
87%
87%
87%
87%
87%
11
16
21
31
40
59
78
99
25
37
48
70
92
137
181
228
14
20
26
39
50
75
99
125
44
66
88
131
175
263
350
438
42
63
83
125
167
250
333
417
23
34
46
68
91
136
182
227
21
31
42
63
83
125
167
208
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
GTD2X
Efficiency
AC Input/Freq. AC Amps per Phase
1
AC Output Amps
1
lb
kg
Heat
Loss
(BTU/
hr)
765
930
1,100
1,300
1,500
1,950
2,050
2,150
347
422
499
590
680
885
930
975
3,403
5,105
6,807
10,210
12,881
19,321
25,761
32,201
Weight
2
0.8 Load Power Factor at Rated kVA 240 VDC (120 Lead Acid Battery Cells)
Model
Number
DPP030-3
DPP040-3
DPP050-3
DPP060-3
DPP080-3
DPP100-3
Rated Output
Power
kVA
30
40
50
60
80
100
Efficiency
kW
24
32
40
48
64
80
AC-DC
93%
94%
94%
94%
94%
94%
AC Input/Freq. AC Amps per Phase1
DC-AC
89%
89%
89%
89%
89%
89%
480/60
58
76
96
119
153
191
208/60
134
176
220
276
353
441
380/50
73
97
121
151
193
241
Max DC
Current
@ 1.75 VPC
128
171
214
257
342
428
AC Output Amps2
120
250
333
417
500
667
833
220
136
182
227
273
364
455
240
125
167
208
250
333
417
UPS
Cabinet
Style
GTD1X
GTD2X
GTD2X
GTD3X
GTD3X
GTD3X
Heat
Loss
(BTU/
kg
hr)
885 17,046
930 21,325
975 26,657
1,157 31,988
1,542 42,650
2,227 53,313
Weight2
lb
1,950
2,050
2,150
2,550
3,400
4,900
1.0 Load Power Factor at Rated kVA 120 VDC (60 Lead Acid Battery Cells)
Model
Number
DPP005-3
DPP007-3
DPP010-3
DPP015-3
DPP020-3
DPP030-3
DPP040-3
Rated Output
Power
kVA
5
7.5
10
15
20
30
40
Efficiency
kW
5
7.5
10
15
20
30
40
AC-DC
92%
92%
92%
92%
93%
93%
93%
AC Input/Freq. AC Amps per Phase1
DC-AC
87%
87%
87%
87%
87%
87%
87%
480/60
15
20
30
40
60
81
99
208/60
35
47
70
93
139
187
228
380/50
20
26
39
51
76
102
125
Max DC
Current
@ 1.75 VPC
55
82
109
164
219
328
438
AC Output Amps1
120
42
63
83
125
167
250
333
220
23
34
45
68
91
136
182
240
21
31
42
63
83
125
167
UPS
Cabinet
Style
GTD1X
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
GTD2X
Weight2
lb
940
1,105
1,300
1,500
1,950
2,050
2,150
kg
426
501
590
680
885
930
975
Heat
Loss
(BTU/
hr)
4,254
6,382
8,509
12,075
16,101
24,151
32,201
1.0 Load Power Factor at Rated kVA 240 VDC (120 Lead Acid Battery Cells)
Model
Number
DPP030-3
DPP040-3
DPP050-3
DPP060-3
Rated Output
Power
kVA
30
40
50
60
Efficiency
kW
30
40
50
60
AC-DC
93%
94%
94%
94%
AC Input/Freq. AC Amps per Phase1
DC-AC
89%
89%
89%
89%
480/60
77
96
119
153
208/60
178
220
276
353
380/50
98
121
151
193
Max DC
Current
@ 1.75 VPC
161
214
268
321
AC Output Amps1
120
250
333
417
500
220
136
182
227
273
240
125
167
208
250
UPS
Cabinet
Style
GTD2X
GTD2X
GTD3X
GTD3X
Heat
Loss
(BTU/
kg
hr)
930 19,992
975 26,657
1,157 33,321
1,542 39,985
Weight2
lb
2,050
2,150
2,550
3,400
Model Coding
“DD”
“EE”
“FF”
“GG”
AC Input Volts (code)
DC Bus Volts (code)
AC Output Volts (code)
Freq (code)
208 – (20)
480 – (48)
380 – (38)
600 – (60)
120 – (12)
240 – (24)
120 – (12)
220 – (22)
240 – (24)
60 – (60)
50 – (50)
“HH”
Output Power Factor
(code)
0.8 – (K)
1.0 – (W)
1
Circuit Breakers are sized at a minimum of 125% of rated current.
2
Unit weights correspond to a 60 Hz unit. Contact us for 50 Hz unit weight.
3
A complete model number includes the AC input voltage, DC bus (link) voltage, AC output voltage, system frequency, output power factor, and
UPS configuration. To “build” a model number, use the “code” in the matrix shown above, following the example format: DPP010-DD-EE-FFGG-H-I-J; where DD=AC Input Voltage; EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency; H=Output Power Factor (‘K’ for 0.8;
‘W’ for 1.0); I=6(S) or 12(T) Pulse Charger design; J=UPS configuration (‘F’ for Float, ‘P’ for Parallel Redundant).
For Example: A 20 kVA with 480 VAC input; 120 VDC bus voltage; 120 VAC output; 60 Hz; 0.8 output power factor; 6 pulse charger; Float system
would have the following model number: DPP020-48-12-12-60-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: DPP020C
Sizes are subject to change. Top mounted cooling fans require 0.5 in (13 mm) additional height. Certain optional features and/or combinations
may require larger cabinets.
“I”
“J”
Charger Design (code)
Config Code (code)
6-Pulse – (S)
12-Pulse – (T)
Float – (F)
Parallel (P)
Cabinet Dimensions Inches Millimeters
Style
GTD1X
GTD2X
GTD3X
GTD3X
GTD5X
HxWxD
79 x 32 x 36
79 x 54 x 36
79 x 86 x 36
79 x 108 x 36
79 x 140 x 36
HxWxD
2,007 x 813 x 914
2,007 x 1,372 x 914
2,007 x 2,184 x 914
2,007 x 2,743 x 914
2,007 x 3,557 x 914
General Specifications –
Standard Features
General Specifications – Optional Features
Metering and System Measurements
(Opt. #)
Alarms (LCD)
(Option #)
AC Input Power (Voltage, Frequency, Current)
(111)
Charger Overload
(119)
System Measurements
High DC Disconnect
(2)
(Displayed on LCD Panel)
Bypass Input Frequency
(112)
Positive/Negative
to
Ground
(2
relays)
(3)
Total Number of Battery Discharges
Bypass Input Voltage
(113)
High/Low Bypass Source Voltage
(7/6)
Total Operational Time on Batteries
Output Power (kVA, kW, Power Factor)
(114)
High/Low AC Output Voltage
(9/8)
Average Time on Battery per Discharge
% Inverter Loading
(115)
AC Power Failure
(26)
AC
Output
Overload
(40)
Historical Min/Max Battery Voltage
Inverter Output Voltage
(117)
High/Low
Inverter
Output
Voltage
(41/42)
Recent Min/Max Battery Voltage
Circuit Breaker
(Opt. #)
Out-of-Sync
(43)
Total Operation Time on UPS
65 kAIC AC Input and Bypass Input
(82/85)
Inverter Fuse Blown
(44)
Total Operation Time on Bypass
Inverter Output (Non-Automatic)
(17)
Inverter Off Frequency
(45)
Bypass Off Frequency
(46)
Total Operation Time on Inverter
AC Output
(18)
Battery Near Exhaustion
(60)
Metering (Displayed on LCD Panel)
Battery High Interrupt Breaker
(86)
Low AC Input Voltage
(68)
DC Voltage
Miscellaneous
(Opt. #)
High DC Voltage
(5)
DC Battery Current (+/-)
Rectifier Configuration
(34)
MBS to Bypass
(84)
Charger Output Blocking Diode
(29)
AC Output Voltage
AC Input CB Open
(101)
Charger
Output
Ripple
Filter
(59)
Bypass Input CB Open
(103)
AC Output Current
Latching Alarms
(28)
AC Output CB Open
(104)
AC Output Frequency
Lamp Test
(35)
High AC Input Voltage
(124)
Charger/Rectifier Output Current
ESI (Essential System Indicator) Panel
(123)
Communications
(Option #)
Alarm Test
(132)
Battery Voltage (with Rectifier
Modbus RTU (RS485 Connection)
(187)
Precharge Circuit
(122)
Configuration)
Ethernet Webpage
(187)
Emergency Power Off
(129)
Circuit Breakers
Modbus TCP
(187)
20% Spare Terminals
(96)
AC Input (14 kAIC, minimum)
Consult Us for Additional Communications Options
Drip Shield
(65)
Battery Input (10 kAIC, minimum)
LED Indicators
(Color)
(Option #)
Lifting Eye Bolts
(105)
Bypass Input (14 kAIC, minimum)
Padlockable Circuit Breakers
(93)
In Sync
(Green)
(SNK)
PCB Confrormal Coating
(127)
AC Input Available
(Green)
(14)
Alarms - All displayed on LCD Alarm Panel
Fungus
and
Moisture
Proof
(70)
Bypass Available
(Green)
(15)
with options for LEDs and Relays
4
5
Parallel
Redundant
Configuration
Inverter
Available
(Green)
(47)
R = Red LED A=Amber LED Y=Relay
(Opt #)
12 Pulse Charger (10% Reflected Harmonics)
Charger
Available
(Green)
(118)
Fan Failure
R, Y
(120)
1
4
Remote External MBS
Additional LED Indicators (1 green, 9 red allowed)
Charger Failure
R, Y
(69)
5
Additional Relay Contacts (Max of 13 allowed)
Low DC Voltage
R, Y
(11)
Low DC Disconnect
R, Y
(107)
General Specifications – Performance
Battery Breaker Open
R, Y
(57)
Battery Discharging
R, Y
(BDC)
Battery Charger/Rectifier
Static Switch
Bypass Supplying Load A, Y
AC Input
Over Temperature
R, Y
(10)
Bypass Voltage 120, 220, 240 VAC
Nominal Voltage2 208, 380, 415, 480, 600 VAC
ST/SW SCR Failure
R, Y
(SWF)
Inversely paired set of SCRs (one set
Bypass Failure
R, Y
(BPF)
Switch Type
Input Range ± 10% (- 15% without discharging)
per leg)
Inverter Failure
R, Y
(58)
Frequency 50 or 60 Hz ± 5%
Failure Mode Automatically fails to Bypass
IGBT Desaturation
Overload Shutdown
DC Output
Transfer Time Make Before Break
Retransfer Blocked
DC Bus Voltage(s) 110, 120, 220, 240 and 360 VDC
Sync Capture Range 0.5% to 1.5%
System Diagnostics –
Regulation ± 1%
1 Hz/sec to 10 Hz/sec
Slew Rate
Displayed on LCD Alarm Panel
(adjustable)
Ripple Voltage < 2% with battery connected
Loss of System Communication(s)
125% continuous
Sized to recharge a 30 minute
Power Supply Failure(s)
150% for 10 minutes
battery to 95% of its rated capacity
Overload Capability
200% for 1 minute
Standard Relays
Capacity within 8 hours, while simultaneous1,000% for 1 cycle
ly supplying power to a fully loaded
The following alarms also include one set of
inverter
Manual Bypass Switch1
normally open and normally closed relay
Float/Equalize ± 5% Adjustability
Voltage 120, 220, 240 VAC
contacts rated for 120 VAC at 8 amps
(30 VDC at 8 amps; 125 V at 300 mil):
Inverter
Mounting Inside UPS/Inverter
UPS Trouble (Summary), Bypass
DC Input
Enclosure
Supplying Load, UPS Communications
Nominal Voltage 110 V/55 (96-128 VDC)
Positions Two
Failure (Summary)
Range/ #of Cells 120 V/60 (105-140 VDC)
600 VAC, rotary drum, make-beforeConstruction
Applicable Standards,
(Lead Calcium Type) 220 V/110 (192-256 VDC)
break type
Codes and Regulations
240 V/120 (210-280 VDC)
Transfer Time Zero in both directions
NEMA PE-1
125% continuous
AC Output
ANSI
150% for 10 minutes
Overload Capacity
Inverter/UPS
Ratings
5-100
kVA
ANSI/NFPA 70
200% for 1 minute
Power
Factor
0.8
or
1.0
1,000% for 1 cycle
IEEE
2
Environmental
AC Output Voltage 120, 220, 240
UL/C-UL (UL1778)
Regulation ± 1 %
Ambient Temperature 23 to 104oF (-5 to 40oC)
Unit Manufactured in ISO9001 Certified Facility
Voltage Adjustment ± 5 %
Relative Humidity 0-95% non-condensing
Frequency 50 or 60 Hz; + 0.1%
Operating Altitude 10,000 feet (3,048 meters)
Crest Factor 3:1
65-72 dB(A) @ 4.9 feet (1.5 meter)
Audible Noise3
typical
Total Harmonic 100% linear load < 3%
Mean Time Between
Distortion (THD) 100% non-linear load < 5%
> 205,000 Hours
Failure (MTBF)
Transient Response ± 5% (0-100% load)
1
Recovery Time < 50 millisecond to ± 1%
Internal Manual Bypass Switch is normally removed when a
Remote Manual Bypass Switch is selected
100% - continuous
2
Custom Input and Output Voltages available – Consult Us
Overload Capacity 125% - 10 minutes
3
Addition of drip shield may increase the noise by 1-3 dB(A)
150% - 1 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 1 / IP-20
(IP-21 with addition optional
drip shield)
BACK
3DPP Specifications
0.8 Load Power Factor at Rated kVA 120VDC (60 Lead Acid Battery Cells)
Rated Output
3PH AC Input/Freq AC
Efficiency
Model Number
Power
Amps Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
10
8
92%
87%
48
21
17
26
3DPP010-3
3DPP015-3
15
12
92%
87%
70
31
24
39
20
16
93%
87%
92
40
32
50
3DPP020-3
3DPP030-3
30
24
93%
87%
137
59
47
75
3DPP040-3
40
32
93%
87%
181
78
63
99
3
50
40
93%
87%
228
99
79
125
3DPP050-
Max DC
Current
@ 1.75 VPC
88
131
175
263
350
438
3PH AC Output Amps
Per Phase1
208
480
380
28
12
15
42
18
23
56
24
30
83
36
46
111
48
61
139
60
76
Cabinet
Style
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
GTD3X
Weight
2
lb
1,100
1,300
1,500
1,950
2,050
2,150
kg
499
590
680
885
930
1,315
Heat Loss
(BTU/hr)
6,807
10,210
12,880
19,321
25,761
32,201
0.8 Load Power Factor at Rated kVA 240VDC (120 Lead Acid Battery Cells)
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Model Number
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
30
24
93%
89%
134
58
46
73
3DPP030-3
3DPP040-3
40
32
94%
89%
176
76
61
97
3
50
40
94%
89%
220
96
77
121
3DPP0503DPP060-3
60
48
94%
89%
276
119
96
151
3DPP080-3
80
64
94%
89%
353
153
122
193
100
80
94%
89%
441
191
153
241
3DPP100-3
3DPP125-3
125
100
94%
89%
551
239
191
302
3
160
128
94%
89%
708
307
245
387
3DPP160-
Max DC
Current
@ 1.75 VPC
128
171
214
257
342
428
535
685
3PH AC Output Amps
Per Phase1
208
480
380
83
36
46
111
48
61
139
60
76
167
72
91
222
96
122
278
120
152
347
151
190
444
192
243
Cabinet
Style
GTD1X
GTD2X
GTD2X
GTD2X
GTD2X
GTD4X
GTD4X
GTD4X
Weight2
lb
1,950
2,050
2,150
2,550
3,400
4,400
4,900
5,880
kg
885
930
975
1,157
1,452
1,996
2,227
2,667
Heat Loss
(BTU/hr)
17,046
21,325
26,657
31,988
42,650
53,313
66,641
85,301
0.8 Load Power Factor at Rated kVA 360VDC (180 Lead Acid Battery Cells)
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Model Number
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
200
160
94%
89%
885
383
307
484
3DPP200-3
3DPP225-3
225
180
94%
89%
995
431
345
545
Max DC
Current
@ 1.75 VPC
571
642
3PH AC Output Amps
Per Phase1
208
480
380
555
241
304
625
271
342
UPS
Cabinet
Style
GTD5X
GTD5X
Weight2
lb
7,060
8,470
kg
3,203
3,842
Heat Loss
(BTU/hr)
106,626
119,954
1.0 Load Power Factor at Rated kVA 120VDC (60 Lead Acid Battery Cells)
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Model Number
Power
Per Phase*
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
10
10
92%
87%
70
31
24
39
3DPP010-3
3DPP015-3
15
15
93%
87%
92
40
32
50
3
3DPP02020
20
93%
87%
137
59
47
75
3DPP030-3
30
30
93%
87%
181
78
63
99
3DPP040-3
40
40
93%
87%
228
99
79
125
Max DC
Current
@ 1.75 VPC
110
164
219
328
438
3PH AC Output Amps
Per Phase1
208
480
380
28
12
15
42
18
23
56
24
30
83
36
46
111
48
61
UPS
Cabinet
Style
GTD1X
GTD1X
GTD2X
GTD2X
GTD3X
Weight2
lb
1,300
1,500
1,950
2,050
2,150
kg
590
680
885
930
975
Heat Loss
(BTU/hr)
8,509
12,075
16,101
24,151
32,201
1.0 Load Power Factor at Rated kVA 240VDC (120 Lead Acid Battery Cells)
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Model Number
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
30
30
94%
89%
176
76
61
97
3DPP030-3
3DPP040-3
40
40
94%
89%
220
96
77
121
3DPP050-3
50
50
94%
89%
276
119
95
151
3DPP060-3
60
60
94%
89%
353
153
122
193
3DPP080-3
80
80
94%
89%
441
191
153
241
3
3DPP100100
100
94%
89%
551
239
191
302
Max DC
Current
@ 1.75 VPC
161
214
268
321
428
535
3PH AC Output Amps
Per Phase1
208
480
380
83
36
46
111
48
61
139
60
76
167
72
91
222
96
122
278
120
152
UPS
Cabinet
Style
GTD2X
GTD2X
GTD2X
GTD2X
GTD4X
GTD4X
Weight2
lb
2,050
2,150
2,550
3,400
4,400
4,900
kg
930
975
1,157
1,542
1,996
2,227
Heat Loss
(BTU/hr)
19,992
26,657
33,321
39,985
53,313
66,641
Model Coding
“DD”
AC Input Volts (code)
208 – (20)
480 – (48)
600 – (60)
380 – (38)
“EE”
DC Bus Volts (code)
120 – (12)
240 – (24)
360 – (36)
“FF”
AC Output Volts (code)
120/208 – (20)
277/480 – (48)
220/380 – (38)
“GG”
Freq (code)
60 – (60)
50 – (50)
“HH”
Output Power Factor (code)
0.8 – (K)
1.0 – (W)
1
Circuit Breakers are sized at a minimum of 125% of rated current.
2
Unit weights correspond to a 60 Hz unit. Contact us for 50 Hz unit weight.
3
A complete model number includes the AC input voltage, DC bus (link) voltage, AC output voltage, system frequency, output power factor, and UPS
configuration. To “build” a model number, use the “code” in the matrix shown above, following the example format: 3DPP010-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 Power Factor (‘K’ for 0.8; ‘W’ for 1.0); I=6(S) or 12(T)
Pulse Charger design; J=UPS configuration (‘F’ for Float, ‘P’ for Parallel Redundant).
For Example: A 20 kVA with 480 VAC input; 120 VDC bus voltage; 120/208 VAC output; 60 Hz; 0.8 output power factor; 6 pulse charger; Float system would
have the following model number: 3DPP020-48-12-20-60-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: 3DPP020C
Sizes are subject to change. Top mounted cooling fans require 0.5 in (13 mm) additional height. Certain optional features and/or combinations may
require larger cabinets.
“I”
Charger Design (code)
6-Pulse – (S)
12-Pulse – (T)
“J”
Config Code (code)
Float – (F)
Parallel (P)
Cabinet Dimensions Inches Millimeters
Style
GTD1X
GTD2X
GTD3X
GTD4X
GTD5X
HxWxD
79 x 32 x 36
79 x 54 x 36
79 x 86 x 36
79 x 108 x 36
79 x 140 x 36
HxWxD
2,007 x 813 x 914
2,007 x 1,372 x 914
2,007 x 2,184 x 914
2,007 x 2,743 x 914
2,007 x 3,557 x 914
General Specifications – Optional Features
General Specifications –
Standard Features
Metering and System Measurements
(Opt. #)
Alarms (LCD)
(Option #)
AC Input Power (Voltage, Frequency, Current)
(111)
Charger Overload
(119)
System Measurements
High DC Disconnect
(2)
(Displayed on LCD Panel)
Bypass Input Frequency
(112)
Positive/Negative
to
Ground
(2
relays)
(3)
Total Number of Battery Discharges
Bypass Input Voltage
(113)
High/Low Bypass Source Voltage
(7/6)
Total Operational Time on Batteries
Output Power (kVA, kW, Power Factor)
(114)
High/Low AC Output Voltage
(9/8)
Average Time on Battery per Discharge
% Inverter Loading
(115)
AC Power Failure
(26)
Historical Min/Max Battery Voltage
AC
Output
Overload
(40)
Inverter Output Voltage
(117)
High/Low
Inverter
Output
Voltage
(41/42)
Recent Min/Max Battery Voltage
Circuit Breaker
(Opt. #)
Out-of-Sync
(43)
Total Operation Time on UPS
65 kAIC AC Input and Bypass Input
(82/85)
Inverter Fuse Blown
(44)
Total Operation Time on Bypass
Inverter Output (Non-Automatic)
(17)
Inverter Off Frequency
(45)
Total Operation Time on Inverter
Bypass Off Frequency
(46)
AC Output
(18)
Rectifier/Charger Fuse Blown
(67)
Metering (Displayed on LCD Panel)
Battery High Interrupt Breaker
(86)
Battery Near Exhaustion
(60)
DC Voltage
Miscellaneous
(Opt. #)
Low AC Input Voltage
(68)
DC Battery Current (+/-)
Rectifier Configuration
(34)
High DC Voltage
(5)
AC Output Voltage
Charger Output Blocking Diode
(29)
MBS to Bypass
(84)
Charger
Output
Ripple
Filter
(59)
AC Input CB Open
(101)
AC Output Current
Latching Alarms
(28)
Bypass
Input
CB
Open
(103)
AC Output Frequency
Lamp Test
(35)
AC Output CB Open
(104)
Charger/Rectifier Output Current
ESI (Essential System Indicator) Panel
(123)
High AC Input Voltage
(124)
Battery Voltage (with Rectifier
Alarm Test
(132)
Communications
(Option #)
Configuration)
Precharge Circuit
(122)
Modbus RTU (RS485 Connection)
(187)
Emergency Power Off
(129)
Circuit Breakers
Ethernet Webpage
(187)
20% Spare Terminals
(96)
AC Input (14 kAIC, minimum)
Modbus TCP
(187)
Drip Shield
(65)
Consult
Us
for
Additional
Communications
Options
Battery Input (10 kAIC, minimum)
Lifting Eye Bolts
(105)
LED Indicators
(Color)
(Option #)
Bypass Input (14 kAIC, minimum)
Padlockable Circuit Breakers
(93)
PCB Confrormal Coating
(127)
In Sync
(Green)
(SNK)
Alarms - All displayed on LCD Alarm Panel
Fungus
and
Moisture
Proof
(70)
AC Input Available
(Green)
(14)
with options for LEDs and Relays
4
5
Parallel
Redundant
Configuration
Bypass
Available
(Green)
(15)
R = Red LED A=Amber LED Y=Relay
(Opt #)
12
Pulse
Charger
(10%
Reflected
Harmonics)
Inverter
Available
(Green)
(47)
Fan Failure
R, Y
(120)
1
Remote External MBS
Charger Available
(Green)
(118)
Charger Failure
R, Y
(69)
4
Additional LED Indicators (1 green, 9 red allowed)
Low DC Voltage
R, Y
(11)
5
Additional
Relay
Contacts
(Max
of
13
allowed)
Low DC Disconnect
R, Y
(107)
Battery Breaker Open
R, Y
(57)
General Specifications – Performance
Battery Discharging
R, Y
(BDC)
Battery Charger/Rectifier
Static Switch
Bypass Supplying Load A, Y
Over Temperature
R, Y
(10)
AC Input
Bypass Voltage 208, 380, 415, 480, 600 (3Ø)
ST/SW SCR Failure
R, Y
(SWF)
Nominal Voltage2 208, 380, 415, 480, 600 VAC (3Ø)
Bypass Failure
R, Y
(BPF)
Inversely paired set of SCRs (one set
Switch Type
Input Range ± 10% (- 15% without discharging)
Inverter Failure
R, Y
(58)
per leg)
IGBT Desaturation
Frequency 50 or 60 Hz ± 5%
Failure Mode Automatically fails to Bypass
Overload Shutdown
DC Output
Transfer Time Make Before Break
Retransfer Blocked
DC Bus Voltage(s) 110, 120, 220, 240 and 360 VDC
Sync Capture Range 0.5% to 1.5%
System Diagnostics –
Regulation ± 1%
1 Hz/sec to 10 Hz/sec
Displayed on LCD Alarm Panel
Slew Rate
(adjustable)
Ripple Voltage < 2% with battery connected
Loss of System Communication(s)
Power Supply Failure(s)
Standard Relays
The following alarms also include one set of
normally open and normally closed relay
contacts rated for 120 VAC at 8 amps
(30 VDC at 8 amps; 125 V at 300 mil):
UPS Trouble (Summary), Bypass
Supplying Load, UPS Communications
Failure (Summary)
Applicable Standards,
Codes and Regulations
NEMA PE-1
ANSI
ANSI/NFPA 70
IEEE
UL/C-UL (UL1778)
Unit Manufactured in ISO9001 Certified Facility
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Manual Bypass Switch1
Voltage 208, 380, 415, 480, 600 (3Ø)
Sized to recharge a 30 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
Overload Capability
Inverter
Mounting Inside UPS/Inverter
DC Input
Nominal Voltage 110 V/55 (96-128 VDC)
Range/ #of Cells 120 V/60 (105-140 VDC)
(Lead Calcium Type) 220 V/110 (192-256 VDC)
240 V/120 (210-280 VDC)
360 V/180 (315-419 VDC)
Enclosure
Positions Two
600 VAC, rotary drum, make-beforeConstruction
break type
Transfer Time Zero in both directions
AC Output
Inverter/UPS Ratings 10-225 kVA
Power Factor 0.8 or 1.0
AC Output Voltage2 120/208, 220/380, 277/480 VAC
Regulation ± 1 %
Voltage Adjustment ± 5 %
Overload Capacity
Environmental
Ambient Temperature 23 to 104oF (-5 to 40oC)
Relative Humidity 0-95% non-condensing
Operating Altitude 10,000 feet (3,048 meters)
Frequency 50 or 60 Hz; + 0.1%
Crest Factor 3:1
Total Harmonic 100% linear load < 3%
Audible Noise3
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 1 / IP-20
Cabinet Rating (IP-21 with addition optional
drip shield)
65-72 dB(A) @ 4.9 feet (1.5 meter)
typical
Mean Time Between
> 205,000 Hours
Failure (MTBF)
Distortion (THD) 100% non-linear load < 5%
Transient Response ± 5% (0-100% load)
Recovery Time < 50 millisecond to ± 1%
100% - continuous
Overload Capacity 125% - 10 minutes
150% - 1 minute
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Internal Manual Bypass Switch is normally removed when a
Remote Manual Bypass Switch is selected
Custom Input and Output Voltages available – Consult Us
3
Addition of drip shield may increase the noise by 1-3 dB(A)
1
2
BACK
3DPP/IEC
General Specifications –
Standard Features
Industrial Pulse Width
Modulated Uninterruptible
Power Supply System
IEC Compliant
THREE PHASE 10-225 kVA
The three phase Digital
ProcessPower Uninterruptible
Power Supply (UPS) system
from AMETEK Solidstate
Controls is a true on-line,
double conversion UPS system
that provides continuous, clean,
regulated power for critical AC
loads and is IEC compliant.
The 3DPP is designed for
process control and industrial
applications and offers better
isolation and faster, more
accurate signals between
processors.
The Power Behind the Process
System Measurements
(Displayed on LCD Panel)
Total Number 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 UPS
Total Operation Time on Bypass
Total Operation Time on Inverter
Metering (Displayed on LCD Panel)
DC Voltage
DC Battery Current (+/-)
AC Output Voltage
AC Output Current
AC Output Frequency
Charger/Rectifier Output Current
Battery Voltage (with Rectifier Configuration)
Circuit Breakers
AC Input (14 kAIC, minimum)
Battery Input (10 kAIC, minimum)
Bypass Input (14 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)
Power Supply Failure(s)
Standard Relays
PROCESSPOWER UPS 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: UPS
Normal and UPS 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)
The following alarms also include one set
of normally open and normally closed relay
contacts rated for 120 VAC at 8 amps
(30 VDC at 8 amps; 125 V at 300 mil):
UPS Trouble (Summary)Bypass
Supplying Loa UPS Communications
Failure (Summary)
Applicable Standards,
Codes and Regulations
NEMA PE-1
ANSI
ANSI/NFPA 70
IEEE
IEC 60240 Parts 1, 2, & 3
UL/C-UL (UL1778)
Unit Manufactured in ISO9001 Certified Facility
General Specifications – Optional Features
Metering and System Measurements
(Option #)
AC Input Power (Voltage, Frequency, Current) (111)
Bypass Input Frequency
(112)
Bypass Input Voltage
(113)
Output Power (kVA, kW, Power Factor)
(114)
% Inverter Loading
(115)
Inverter Output Voltage
(117)
Circuit Breaker
(Option #)
65 kAIC AC Input and Bypass Input
(82/85)
Inverter Output (Non-Automatic)
(17)
AC Output
(18)
Battery High Interrupt Breaker
(86)
Communications
(Option #)
Modbus RTU (RS485 Connection)
(187)
Ethernet Webpage
(187)
Modbus TCP
(187)
SCI-Link
Consult Factory for Additional Communication Options
Miscellaneous
(Option #)
Rectifier Configuration
(34)
Charger Output Blocking Diode
(29)
Charger Output Ripple Filter
Cascade Redundant Configuration
Parallel Redundant Configuration
12 Pulse Charger (10% Reflected Harmonics)
Additional Relay Contacts (Max of 13 available)
Additional LED Indicators (1 green, 9 red available)
Remote External MBS1
Miscellaneous – Continued
Latching Alarms
Lamp Test
ESI (Essential System Indicator) Panel
Alarm Relay Test
(Option #)
(28)
(35)
(123)
(132)
Alarms
Charger Overload
High DC Disconnect
Positive/Negative to Ground (2 relays)
High/Low Bypass Source Voltage
High/Low AC Output Voltage
AC Power Failure
AC Output Overload
High/Low Inverter Output Voltage
Out-of-Sync
Inverter Fuse Blown
Inverter Off Frequency
Bypass Off Frequency
Rectifier/Charger Fuse Blown
Battery Near Exhaustion
Low AC Input Voltage
High DC Voltage
Rectifier/Charger Failure
MBS to Bypass
AC Input CB Open
Bypass Input CB Open
AC Output CB Open
(Option #)
(119)
(2)
(3)
(7/6)
(9/8)
(26)
(48)
(41/42)
(43)
(44)
(45)
(46)
(67)
(60)
(68)
(5)
(69)
(78)
(101)
(103)
(104)
General Specifications – Performance
Battery Charger/Rectifier
AC Input
Nominal Voltage2 208, 380, 415, 480, 600:
3-phase/ 3- wire
Input Range ± 10% (- 15% without discharging)
Frequency 50 or 60 Hz ± 5%
DC Output
Static Switch
Bypass Voltage 120/208, 220/380, and
277/480: 3-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
DC Bus Voltage(s) 110,120,220, 240 and 360 VDC
Regulation ± 1%
Ripple Voltage < 2% with battery connected
Capacity Sized to recharge a 30 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
DC Input
Nominal Voltage 110 V/55 (96-128 VDC)
Range/ #of Cells 120 V/60 (105-140 VDC)
(Lead Calcium Type) 220 V/110 (192-256 VDC)
240 V/120 (210-280 VDC)
AC Output
Inverter/UPS Ratings 10-225 kVA
Power Factor 0.8 or 1.0
AC Output Voltage2 120/208, 220/380 and
277/480: 3-phase, 4-wire
Regulation ± 1%
±
Voltage Adjustment 5%
Frequency 50 or 60 Hz; + 0.1%
Crest Factor 3:1
Total Harmonic 100% linear load < 3%
Distortion (THD) 100% non-linear load < 5%
Transient Response ± 5% (0-100% load)
Recovery Time < 50 millisecond to ± 1%
Overload Capacity 100% - continuous
125% - 10 minutes
150% - 1 minute
Sync Capture Range 0.5% to 1.5% adjustable
Slew Rate 1 Hz/sec to 10 Hz/sec
(adjustable)
Overload Capability 125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Manual Bypass Switch1
Voltage 120/208, 220/380, and
277/480: 3-phase, 4-wire
Mounting Inside UPS/Inverter
Enclosure
Positions Two
Construction 600 VAC, rotary drum, make-before-break type
Transfer Time Zero in both directions
Overload Capacity 125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Environmental
Ambient Temperature 23 to 104oF (-5 to 40oC)
Relative Humidity 0-95% non-condensing
Operating Altitude 10,000 feet (3,048 meters)
Audible Noise3 65-72 dB(A) @ 4.9 feet (1.5 meter)
typical
Cooling Aided Convection or Forced
Air, depending on kVA rating
and design (fans standard
for 40 kVA units and above)
Cable Entry Top and Bottom Entry
Standard
Mean Time Between Failure > 205,000 Hours
(MTBF)
Cabinet Rating NEMA 1 / IP-20
(IP-21 with addition
optional drip shield)
1
Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected
2
Custom Input and Output Voltages available – Contact Us
3
Addition of drip shield may increase the noise by 1-3 dB(A)
BACK
0.8 Load Power Factor at Rated kVA 120 VDC (60 Lead Acid Battery Cells)
Model
Number
3DPP010-3
3DPP015-3
3DPP020-3
3DPP030-3
3DPP040-3
3DPP050-3
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
10
8
92%
87%
48
21
17
26
15
12
92%
87%
70
31
24
39
20
16
93%
87%
92
40
32
50
30
24
93%
87%
137
59
47
75
40
32
93%
87%
181
78
63
99
50
40
93%
87%
228
99
79
125
Max DC
Current
@ 1.75 VPC
88
131
175
263
350
438
UPS
Cabinet
Style
3PH AC Output Amps
Per Phase1
208
480
380
28
12
15
42
18
23
56
24
30
83
36
46
111
48
61
139
60
76
Heat Loss
(BTU/hr)
Weight2
lb
1,100
1,300
1,500
1,950
2,050
2,900
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
GTD3X
kg
499
590
680
885
930
1,315
6,807
10,210
12,880
19,321
25,761
32,201
0.8 Load Power Factor at Rated kVA 240 VDC (120 Lead Acid Battery Cells)
Model
Number
3DPP030-3
3DPP040-3
3DPP050-3
3DPP060-3
3DPP080-3
3DPP100-3
3DPP125-3
3DPP160-3
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
30
24
93%
89%
134
58
46
73
40
32
94%
89%
176
76
61
97
50
40
94%
89%
220
96
77
121
60
48
94%
89%
276
119
96
151
80
64
94%
89%
353
153
122
193
100
80
94%
89%
441
191
153
241
125
100
94%
89%
551
239
191
302
160
128
94%
89%
708
307
245
387
Max DC
Current
@ 1.75 VPC
128
171
214
257
342
428
535
685
UPS
Cabinet
Style
3PH AC Output Amps
Per Phase1
208
480
380
83
36
46
111
48
61
139
60
76
167
72
91
222
96
122
278
120
152
347
151
190
444
192
243
Heat Loss
(BTU/hr)
Weight2
lb
1,950
2,050
2,150
2,550
3,200
4,400
4,900
5,880
GTD1X
GTD2X
GTD2X
GTD2X
GTD2X
GTD4X
GTD4X
GTD4X
kg
885
930
975
1,157
1,452
1,996
2,227
2,667
17,046
21,325
26,657
31,988
42,650
53,313
66,641
85,301
0.8 Load Power Factor at Rated kVA 360 VDC (180 Lead Acid Battery Cells)
Model
Number
3DPP200-3
3DPP225-3
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
200
160
94%
89%
885
383
307
484
225
180
94%
89%
995
431
345
545
Max DC
Current
@ 1.75 VPC
571
642
UPS
Cabinet
Style
3PH AC Output Amps
Per Phase1
208
480
380
555
241
304
625
271
342
Heat Loss
(BTU/hr)
Weight2
lb
7,060
8,470
GTD5X
GTD5X
kg
3,203
3,842
106,626
119,954
1.0 Load Power Factor at Rated kVA 120 VDC (60 Lead Acid Battery Cells)
Model
Number
3DPP010-3
3DPP015-3
3DPP020-3
3DPP030-3
3DPP040-3
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
10
10
92%
87%
70
31
24
39
15
15
93%
87%
92
40
32
50
20
20
93%
87%
137
59
47
75
30
30
93%
87%
181
78
63
99
40
40
93%
87%
228
99
79
125
Max DC
Current
@ 1.75 VPC
110
164
219
328
438
UPS
Cabinet
Style
3PH AC Output Amps
Per Phase1
208
480
380
28
12
15
42
18
23
56
24
30
83
36
46
111
48
61
Heat Loss
(BTU/hr)
Weight2
lb
1,300
1,500
1,950
2,050
2,900
GTD1X
GTD1X
GTD2X
GTD2X
GTD3X
kg
590
680
885
930
975
8,509
12,075
16,101
24,151
32,201
1.0 Load Power Factor at Rated kVA 240 VDC (120 Lead Acid Battery Cells)
Model
Number
3DPP030-3
3DPP040-3
3DPP050-3
3DPP060-3
3DPP080-3
3DPP100-3
Rated Output
3PH AC Input/Freq AC Amps
Efficiency
Power
Per Phase1
kVA
kW
AC-DC DC-AC 208/60 480/60 600/60 380/50
30
30
94%
89%
176
76
61
97
40
40
94%
89%
220
96
77
121
50
50
94%
89%
276
119
95
151
60
60
94%
89%
353
153
122
193
80
80
94%
89%
441
191
153
241
100
100
94%
89%
551
239
191
302
Max DC
Current
@ 1.75 VPC
161
214
268
321
428
535
UPS
Cabinet
Style
3PH AC Output Amps
Per Phase1
208
480
380
83
36
46
111
48
61
139
60
76
167
72
91
222
96
122
278
120
152
Heat Loss
(BTU/hr)
Weight2
lb
2,050
2,150
2,550
3,400
4,400
4,900
GTD2X
GTD2X
GTD2X
GTD2X
GTD4X
GTD4X
kg
930
975
1,157
1,542
1,996
2,227
19,992
26,657
33,321
39,985
53,313
66,641
Model Coding
“DD”
“EE”
“FF”
“GG”
AC Input Volts (code)
208 – (20)
480 – (48)
600 – (60)
380 – (38)
DC Bus Volts (code)
120 – (12)
240 – (24)
360 – (36)
AC Output Volts (code)
120/208 – (20)
277/480 – (48)
220/380 – (38)
Freq (code)
60 – (60)
50 – (50)
“HH”
“I”
Output Power Factor (code) Charger Design (code)
0.8 – (K)
6-Pulse – (S)
1.0 – (W)
12-Pulse – (T)
“J”
Config Code (code)
Float – (F)
Cascaded – (C)
Parallel (P)
Cabinet Dimensions Inches Millimeters
Style
GTD1X
GTD2X
GTD3X
GTD4X
GTD5X
1
Circuit Breakers are sized at a minimum of 125% of rated current.
2
Unit weights correspond to a 60 Hz unit. Contact us for 50 Hz unit weight.
HxWxD
79 x 32 x 36
79 x 54 x 36
79 x 86 x 36
79 x 108 x 36
79 x 140 x 36
HxWxD
2,007 x 813 x 914
2,007 x 1,372 x 914
2,007 x 2,184 x 914
2,007 x 2,743 x 914
2,007 x 3,557 x 914
A complete model number includes the AC input voltage, DC bus (link) voltage, AC output voltage, system frequency, output power factor, and UPS configuration. To “build” a model number, use the
“code” in the matrix shown above, following the example format: 3DPP010-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
Power Factor (‘K’ for 0.8; ‘W’ for 1.0); I=6(S) or 12(T) Pulse Charger design; J=UPS configuration (‘F’ for Float, ‘C’ for Cascaded Redundant, ‘P’ for Parallel Redundant).
3
For Example: A 20 kVA with 480 VAC input; 120 VDC bus voltage; 120/208 VAC output; 60 Hz; 0.8 output power factor; 6 pulse charger; Float system would have the following model number: 3DPP020-4812-20-60-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: 3DPP020C
Sizes are subject to change. Top mounted cooling fans require 0.5 in (13 mm) additional height. Certain optional features and/or combinations may require larger cabinets.
WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018
BACK
DSE
General Specifications –
Standard Features
Digitally Controlled
Ferroresonant Industrial
Uninterruptible
Power Supply System
SINGLE PHASE 3-50 kVA
The DSE Uninterruptible Power Supply
(UPS) system from AMETEK Solidstate
Controls combines the best of both worlds:
(1) The reliability and robust design of a
Ferroresonant UPS
(2) The digital control and communications
typically found only in Pulse Width
Modulation products
The DSE is a true on-line, double conversion
UPS 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 ProcessPower systems for the
ultimate in user control.
Benefits of the DSE:
• Exceeds 205,000 hours MTBF
• Vacuum pressure impregnated
(VPI) magnetics with 200ºC
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 12 pulse charger available
• Available in single phase, 3-wire
output for split phase
The Power Behind the Process
PROCESSPOWER UPS 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: UPS
Normal and UPS 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)
System Measurements
(Displayed on LCD Panel)
Total Number 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 UPS
Total Operation Time on Bypass
Total Operation Time on Inverter
Metering (Displayed on LCD Panel)
DC Voltage
DC Battery Current (+/-)
AC Output Voltage
AC Output Current
AC Output Frequency
Charger/Rectifier Output Current
Circuit Breakers
AC Input (14 kAIC, minimum)
Battery Input (10 kAIC, minimum)
Bypass Input (14 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)
Power Supply Failure(s)
Relay Controls
The following alarms also include one set
of normally open and normally closed
relay contacts rated for 120 VAC at 8 amps
(30 VDC at 8 amps):
UPS Trouble (Summary) Bypass
Supplying Load UPS Communications
Failure (Summary)
Applicable Standards, Codes and
Regulations
NEMA PE-1
ANSI
General Specifications – Optional Features
Metering and System Measurements
(Option #)
AC Input Power (Voltage, Frequency, Current)
(111)
Bypass Input Frequency
(112)
Bypass Input Voltage
(113)
Output Power (kVA, kW, Power Factor)
(114)
% Inverter Loading
(115)
Inverter Output Voltage
(117)
Analog Meters
(196)
Circuit Breaker
(Option #)
65 kAIC AC Input and Bypass Input
(82/85)
Inverter Output (Non-Automatic)
(17)
AC Output
(18)
Battery High Interrupt Breaker
(86)
Communications
(Option #)
Modbus RTU (RS485 Connection)
(187)
Ethernet Webpage
(187)
Modbus TCP
(187)
SCI-Link
Consult Factory for Additional Communication Options
Miscellaneous
(Option #)
Rectifier Configuration
(34)
Charger Output Blocking Diode
(29)
Charger Output Ripple Filter
Cascade Redundant Configuration
12 Pulse Charger (10% Reflected Harmonics)
Additional Relay Contacts (Max of 13 available)
Additional LED Indicators (1 green, 9 red available)
Remote External MBS1
Miscellaneous – Continued
Latching Alarms
Lamp Test
Alarm Relay Test
Alarms
Charger Overload
High DC Disconnect
Positive/Negative to Ground (2 relays)
High/Low Bypass Source Voltage
High/Low AC Output Voltage
AC Power Failure
AC Output Overload
High/Low Inverter Output Voltage
Out-of-Sync
Inverter Fuse Blown
Inverter Off Frequency
Bypass Off Frequency
Rectifier/Charger Fuse Blown
Battery Near Exhaustion
Low AC Input Voltage
High DC Voltage
Rectifier/Charger Failure
MBS to Bypass
AC Input CB Open
Bypass Input CB Open
AC Output CB Open
(Option #)
(28)
(35)
(132)
(Option #)
(119)
(2)
(3)
(7/6)
(9/8)
(26)
(48)
(41/42)
(43)
(44)
(45)
(46)
(67)
(60)
(68)
(5)
(69)
(78)
(101)
(103)
(104)
General Specifications – Performance
Battery Charger/Rectifier
AC Input
Nominal Voltage2
Input Range
Frequency
208, 480: 3-phase/ 3-wire
± 10% (- 15% without discharging)
60 Hz ± 5%
DC Output
DC Bus Voltage(s)
Regulation
Ripple Voltage
Capacity
Float/Equalize
Transfer Time
120, 240 VDC
± 1%
< 2% with battery connected
Sized to recharge a 30 minute
battery to 95% of its rated
capacity within 8 hours, while
simultaneously supplying power
to a fully loaded inverter
± 5% Adjustability
Inverter
DC Input
Nominal Voltage
Range/ # of Cells
(Lead Acid Type)
ANSI/NFPA 70
IEEE
UL/C-UL (UL1778)
ISO9001 Certified Facility
AC Output
Inverter/UPS Ratings
Power Factor Range
AC Output Voltage2
Regulation
Frequency
Crest Factor
Total Harmonic
Distortion (THD)
Transient Response
Recovery Time
Overload Capacity
Static Switch
Bypass Voltage 120 Single Phase, 2-wire
120/240 Single Phase, 3-wire
Switch Type Inversely paired set of SCRs
(one set per leg)
Failure Mode Automatically fails to bypass
120 V/60 (105-140 VDC)
240 V/120 (210-280 VDC)
3 - 50 kVA
0.8 - 1.0
120: Single phase, 2 wire
120/240: Single phase, 3 wire
± 2%
60 Hz; ± 0.1%
3:1
100% linear load < 5%
Sync Capture Range
Slew Rate
Overload Capability
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Manual Bypass Switch1
Voltage 120: Single phase, 2 wire
120/240: Single phase, 3 wire
Mounting Inside UPS/Inverter
Enclosure
Two
600 VAC, rotary drum, makebefore-break type
Transfer Time Zero in both directions
Overload Capacity 125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Environmental
Ambient Temperature 32 to 104oF (0 to 40oC)
Relative Humidity 0-95% non-condensing
Operating Altitude 10,000 feet (3,048 meters)
Audible Noise3 65-72 dB(A) @ 4.9 feet
(1.5 meter) typical
Positions
Construction
Cooling
23% for ½ cycle
2% after 50 milliseconds
< 50 millisecond to ± 1%
120% - continuous
125% - 10 minutes
150% - 1 minute
Cable Entry
Mean Time Between
Failure (MTBF)
Cabinet Rating
1
2
3
Make Before Break
0.5% to 0.8% adjustable
1 Hz/sec to 10 Hz/sec
(adjustable)
Aided Convection or Forced
Air, depending on kVA rating
and design (fans standard for
30 kVA units and above)
Top and Bottom Entry
Standard
> 205,000 Hours
NEMA 1 / IP-20
(IP-21 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 1-3 dB(A)
BACK
120 VDC (60 Lead Acid Battery Cells)
Model
Number
DSE003-2
DSE005-2
DSE007-2
DSE010-2
DSE015-2
DSE020-2
DSE030-2
DSE040-2
DSE050-2
Rated Output
Power
Efficiency
kVA
kW
AC-DC
DC-AC
3
5
7.5
10
15
20
30
40
50
3
5
7.5
10
15
20
30
40
50
91%
91%
91%
92%
93%
93%
94%
94%
94%
83%
85%
85%
85%
86%
86%
87%
88%
88%
AC Amps per
Phase1
(AC Input/Freq)
480/60 208/60
10
12
19
24
36
48
72
96
120
23
29
43
56
83
111
165
220
275
Max DC
Current
AC Output
Amps1
@ 1.75
VPC
34
56
84
112
166
221
328
432
541
120
240
25
42
63
83
125
167
250
333
417
13
21
31
42
63
83
125
167
208
UPS
Cabinet
Style
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
GTD2X
AC I/P Circuit Battery I/P
Breaker
Breaker
Bypass
Breaker
208
480
120
120
120/240
30
35
60
70
125
150
225
300
400
15
15
25
30
50
60
90
125
150
50
70
100
125
200
250
400
500
600
35
60
80
125
175
225
350
500
600
20
30
40
60
80
110
175
225
300
Weight
lb
Heat
Loss
(BTU)
kg
885
402
885
426
1,100 500
1,325 602
2,050 932
2,100 955
2,650 1,205
3,050 1,386
3,700 1,682
3,316
4,996
7,493
9,512
12,811
17,081
22,805
28,510
35,638
Weight
Heat
Loss
(BTU)
240 VDC (120 Lead Acid Battery Cells)
Model
Number
DSE003-2
DSE005-2
DSE007-2
DSE010-2
DSE015-2
DSE020-2
DSE030-2
DSE040-2
DSE050-2
Rated Output
Power
Efficiency
AC Amps Per
Phase1
(AC Input/Freq)
kVA
kW
AC-DC
DC-AC
3
5
7.5
10
15
20
30
40
3
5
7.5
10
15
20
30
40
91%
91%
91%
92%
93%
93%
94%
94%
84%
87%
88%
88%
88%
88%
88%
88%
11
12
20
24
36
48
72
96
50
50
94%
88%
120
Max DC
Current
AC Output
Amps1
UPS
Cabinet
Style
AC I/P Circuit Battery I/P
Breaker
Breaker
Bypass
Breaker
120
240
208
480
240
120
120/240
23
29
46
56
84
111
165
220
@ 1.75
VPC
17
27
41
54
81
108
162
217
25
42
63
83
125
167
250
333
13
21
31
42
63
83
125
167
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
30
35
60
70
125
150
225
300
15
15
25
30
50
60
90
125
25
40
50
70
100
125
200
250
35
60
80
125
175
225
350
500
20
30
40
60
80
110
175
225
885
402
885
426
1,100 500
1,325 602
2,050 932
2,100 955
2,650 1,205
3,050 1,386
3,155
4,489
6,366
8,024
11,357
15,142
21,383
28,510
275
270
417
208
GTD2X
400
150
350
600
300
3,700 1,682
35,638
480/60 208/60
lb
kg
Cabinet Dimensions Inches Millimeters
Style
GTD1X
GTD2X
HxWxD
79 x 32 x 36
79 x 54 x 36
HxWxD
2,007 x 813 x 914
2,007 x 1,372 x 914
Model Coding
“DD”
“EE”
“FF”
“GG”
“I”
AC Input Volts (code)
DC Bus Volts (code)
AC Output Volts (code)
Freq (code)
Charger Design (code)
60 – (60)
480 – (48)
120 – (12)
120 – (12)
208 – (20)
240 – (24)
120/240 - (24)
6-Pulse – (S)
12-Pulse – (T)
1
Circuit Breakers are sized at a minimum of 125% of rated current.
2
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: DSE020-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 12(T) Pulse Charger design.
For Example: A 20 kVA with 480 VAC input; 120 VDC bus voltage; 120 VAC output; 60 Hz; 6-pulse charger design; would have the following model number:
DSE020-48-12-12-60-S.
For 120/240 VAC output units, add “2” 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: DSE020C
Specifications are subject to change.
Top mounted cooling fans require 0.5 in (13 mm) additional height.
Certain optional features and/or combinations may require larger cabinets.
WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018
BACK
DPI/3DPI
DPI/3DPI
DIGITAL
DIGITAL
PROCESS
PROCESS
POWER
POWER
The Power Behind the Process
PROCESSPOWER
UPS SYSTEM
LCD AND
TOUCH SCREEN
USER PANEL
Shown with optional
indicator lights
Industrial Pulse Width
Modulated Inverter
DPI SINGLE PHASE 5-100 kVA
3DPI THREE PHASE 10-125 kVA
The Digital ProcessPower 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 ProcessPower has lower
audible noise
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: UPS Normal and UPS 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)
BACK
DPI Specifications
0.8 Load Power Factor at Rated kVA 120 VDC (60 Lead Calcium Battery Cells)
Rated Output Power
kVA
kW
5
4
7.5
6
10
8
15
12
20
16
30
24
40
32
50
40
Model
Number
DPI005-3
DPI007-3
DPI010-3
DPI015-3
DPI020-3
DPI030-3
DPI040-3
DPI050-3
Efficiency
DC-AC
87%
87%
87%
87%
87%
87%
87%
87%
120
42
63
83
125
167
250
333
417
AC Output Amps
220
23
34
45
68
91
136
182
228
Max DC Current
@ 1.75 VPC
44
66
88
131
175
263
350
438
240
21
31
42
63
83
125
167
208
Cabinet Style
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD2X
Weight2
lb
650
750
900
1,050
1,150
1,200
1,250
1,950
kg
295
340
408
476
522
544
567
885
Heat Loss
(BTU/hr)
2,039
3,059
4,079
6,118
8,157
12,236
16,315
20,394
0.8 Load Power Factor at Rated kVA 240 VDC (120 Lead Acid Battery Cells)
Rated Output Power
kVA
kW
30
24
40
32
50
40
60
48
80
64
100
80
Model
Number
DPI030-3
DPI040-3
DPI050-3
DPI060-3
DPI080-3
DPI100-3
Efficiency
DC-AC
89%
89%
89%
89%
89%
89%
120
250
333
417
500
667
833
AC Output Amps
220
136
182
227
273
364
454
Max DC Current
@ 1.75 VPC
128
171
214
257
342
428
240
125
167
208
250
333
417
Cabinet Style
GTD1X
GTD1X
GTD2X
GTD3X
GTD3X
GTD3X
Weight
lb
kg
1,200
544
1,500
680
1,725
782
2,050
930
2,300
1,043
3,300
1,497
2
Heat Loss
(BTU/hr)
10,121
13,495
16,868
20,242
26,989
33,737
Model Coding
“EE”
“FF”
“GG”
DC Bus Volts (code)
AC Output Volts (code)
Frequency (code)
110 - (11)
120 - (12)
220 - (22)
240 - (24)
120 - (12)
220 - (22)
60 - (60)
50 - (50)
“H”
Output Power Factor
(code)
0.8 - (K)
“J”
Configuration (code)
Cascaded - (C)
Parallel - (P)
Cabinet Dimensions Inches Millimeters
Style
GTD1X
GTD2X
GTD3X
GTD4X
HxWxD
79 x 32 x 36
79 x 54 x 36
79 x 86 x 36
79 x 108 x 36
HxWxD
2,007 x 813 x 914
2,007 x 1,372 x 914
2,007 x 2,184 x 914
2,007 x 2,743 x 914
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 Current (+/-)
AC Output Voltage
AC Output Current
AC Output Frequency
Circuit Breakers
DC Input (10 kAIC, minimum)
Bypass Input (14 kAIC, minimum)
Alarms - All displayed on LCD Alarm
Panel with options for LEDs and Relays
R = Red LED4 A=Amber LED Y=Relay5
(Option #)
Fan Failure
Low DC Voltage
Low DC Disconnect
Battery Breaker Open
Bypass Supplying Load
Over Temperature
ST/SW SCR Failure (SWF)
Bypass Failure (BPF)
Inverter Failure
IGBT Desaturation
Overload Shutdown
Retransfer Blocked
(120)
(11)
(107)
(57)
R, Y
R, Y
R, Y
R, Y
A, Y
R, Y
R, Y
R, Y
R, Y
(10)
(58)
System Diagnostics (Displayed on LCD
Alarm Panel)
Loss of System Communication(s)
Power Supply Failure(s)
Relay Controls
The following alarms also include one set
of normally open and normally closed
relay contacts rated for 120 VAC at 8
amps (30 VDC at 8 amps):
Trouble (Summary) Bypass
Supplying Load Communications
Failure (Summary)
Applicable Standards,
Codes and Regulations
NEMA PE-1
ANSI
ANSI/NFPA 70
IEEE
UL/C-UL (UL1778)
Unit Manufactured in ISO9001 Certified
Facility
General Specifications – Optional Features
Metering and System Measurements
Bypass Input Frequency
Bypass Input Voltage
Output Power (kVA, kW, Power Factor)
% Inverter Loading
Inverter Output Voltage
(Option #)
(112)
(113)
(114)
(115)
(117)
Circuit Breaker
65 kAIC Bypass Input
Inverter Output (Non-Automatic)
AC Output
(Option #)
(85)
(17)
(18)
Miscellaneous
Latching Alarms
Lamp Test
ESI (Essential System Indicator) Panel
Alarm Test
Precharge Circuit
Emergency Power Off
Key Lock Enclosure
Drip Shield
Lifting Eye Bolts
Padlockable Circuit Breakers
Padlockable MBS
MBS with Sync Lockout
DC Rated Contacts
Space Heater
PCB Confrormal Coating
Fungus and Moisture Proof
Parallel Redundant Configuration
Remote External MBS1
(Option #)
(28)
(35)
(123)
(132)
(122)
(129)
(159)
(65)
(105)
(93)
(30P)
(32)
(72)
(88)
(127)
(70)
Alarms (LCD)
High DC Disconnect
Positive/Negative to Ground (2 relays)
High/Low Bypass Source Voltage
High/Low AC Output Voltage
AC Output Overload
High/Low Inverter Output Voltage
Out-of-Sync
Inverter Fuse Blown
Inverter Off Frequency
Bypass Off Frequency
Battery Near Exhaustion
High DC Voltage
MBS in Bypass to Load
Inverter Output CB Open
Bypass Input CB Open
AC Output CB Open
Battery Time Remaining
Communications
Modbus RTU (RS485 Connection)
Ethernet Webpage
Modbus TCP
Consult Us for Additional Communications Options
LED Indicators
In Sync
Bypass Available
Inverter Available
(Color)
(Green)
(Green)
(Green)
DC Input
Nominal Voltage
Range/ #of Cells
(Lead Calcium Type)
AC Output
Inverter/UPS Ratings
Power Factor
AC Output Voltage2
Inverter
110 V/55 (96-128 VDC)
120 V/60 (105-140 VDC)
220 V/110 (192-256 VDC)
240 V/120 (210-280 VDC)
5-100 kVA
0.8
120, 220
Regulation
±1%
Voltage Adjustment
±5%
Transient Response
Recovery Time
Overload Capacity
50 or 60 Hz; ± 0.1%
3:1
100% linear load < 3%
100% non-linear load < 5%
± 5% (0-100% load)
< 50 millisecond to + 1%
100% - continuous
125% - 10 minutes
150% - 1 minute
Mechanical
Cooling
Cable Entry
Cabinet Rating
Aided Convection or Forced
Air, depending on kVA rating
and design (fans standard
for 40 kVA units and above)
Top or Bottom Entry Standard
NEMA 1 / IP-20
(IP-21 with addition optional
drip shield)
Static Switch
Bypass Voltage 120, 220 VAC
Switch Type
Circuit Breakers are sized at a minimum of 125% 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 UPS configuration. To “build” a model number, use the “code” in the matrix
shown above, following the example format: DPI010-EE-FF-GG-H-J; where EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency; H=Power Factor; J=Inverter configuration (‘F’ for Float, ‘P’ for
Parallel Redundant). For Example: A 30 kVA inverter with a 240 VDC bus voltage; 120 output voltage; 60 Hz would have the following model number: DPI030-24-12-60-K-C
3
For custom systems and for units which do not have a configurable model number, insert a ‘C’ in the model number as follows: DPI020C
Sizes are subject to change. Top mounted cooling fans require 0.5 in (13 mm) additional height. Certain optional features and/or combinations may require larger cabinets
Inversely paired set of SCRs (one
set per leg)
Failure Mode
Automatically fails to Bypass
Transfer Time
Make Before Break
Sync Capture Range
Slew Rate
0.5% to 1.5%
1 Hz/sec to 10 Hz/sec
(adjustable)
Overload Capability
125% continuous
150% for 10 minutes
200% for 1 minute
1000% for 1 cycle
Manual Bypass Switch1
Voltage 120, 220 VAC
Mounting Inside UPS/Inverter
Enclosure
Positions
Construction
Transfer Time
Overload Capacity
Two
600 VAC, rotary drum, makebefore-break type
Zero in both directions
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Environmental
Ambient Temperature
Relative Humidity
Operating Altitude
Audible Noise3
Mean Time Between
Failure (MTBF)
2
(Option #)
(SNK)
(15)
(47)
General Specifications – Performance
Frequency
Crest Factor
Total Harmonic
Distortion (THD)
1
(Option #)
(2)
(3)
(7/6)
(9/8)
(40)
(41/42)
(43)
(44)
(45)
(46)
(60)
(5)
(84)
(102)
(103)
(104)
(157)
(Option #)
(187)
(187)
(187)
23 to 104oF (-5 to 40oC)
0-95% non-condensing
10,000 feet (3,048 meters)
65-72 dB(A) @ 4.9 feet (1.5 meter) Typical
> 205,000 Hours
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 1-3 dB(A)
4
Additional LED Indicators (1 green, 9 red allowed)
5
Additional Relay Contacts (Max of 13 allowed)
1
2
3
BACK
3DPI Specifications
0.8 Load Power Factor at Rated kVA 120VDC (60 Lead Calcium Battery Cells)
Model
Number
3DPI010-3
3DPI015-3
3DPI020-3
3DPI030-3
3DPI040-3
3DPI050-3
Rated Output Power
kVA
kW
10
8
15
12
20
16
30
24
40
32
50
40
Efficiency
87%
87%
87%
87%
87%
87%
Max DC Current
@ 1.75 VPC
88
131
175
263
350
438
3PH AC Output Amps Per Phase1
208
480
380
28
12
15
42
18
23
56
24
30
83
36
46
111
48
61
139
60
76
Cabinet
Style
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
GTD3X
Weight2
lb
715
845
975
1,268
1,333
1,398
kg
325
383
442
575
605
634
Heat Loss
(BTU/hr)
4,077
5,098
8,158
12,235
16,317
20,394
Load Power Factor at Rated kVA 240VDC (120 Lead Acid Battery Cells)
Model
Number
3DPI060-3
3DPI080-3
3DPI100-3
3DPI125-3
Rated Output Power
kVA
kW
60
48
80
64
100
80
125
100
Efficiency
89%
89%
89%
89%
Max DC Current
@ 1.75 VPC
257
342
428
535
3PH AC Output Amps Per Phase1
208
480
380
167
72
91
222
96
122
278
120
152
348
150
190
Cabinet
Style
GTD2X
GTD3X
GTD4X
GTD4X
Weight2
lb
kg
1,658
752
2,210
1,002
2,860
1,297
3,185
1,445
Heat Loss
(BTU/hr)
20,244
26,990
33,739
42,174
Model Coding
“EE”
DC Bus Volts (code)
110 - (11)
120 - (12)
220 - (22)
240 - (24)
“FF”
AC Output Volts (code)
208 - (20)
380 - (38)
480 - (48)
“GG”
Freq (code)
50 - (50)
60 -(60)
“H”
Output Power Factor (code)
0.8 - (K)
“J”
Config Code (code)
Cascaded - (C)
Cascaded - (C)
Cabinet Dimensions Inches Millimeters
Style
GTD1X
GTD2X
GTD3X
GTD4X
HxWxD
79 x 32 x 36
79 x 54 x 36
79 x 86 x 36
79 x 108 x 36
HxWxD
2,007 x 813 x 914
2,007 x 1,372 x 914
2,007 x 2,184 x 914
2,007 x 2,743 x 914
General Specifications –
Standard Features
System Measurements (Displayed on
LCD Panel)
Total Operation Time on UPS
Total Operation Time on Bypass
Total Operation Time on Inverter
Metering (Displayed on LCD Panel)
DC Voltage
DC Battery Current (+/-)
AC Output Voltage
AC Output Current
AC Output Frequency
Circuit Breakers
DC Input (10 kAIC, minimum)
Bypass Input (14 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)
Power Supply Failure(s)
Relay Controls
The following alarms also include one set
of normally open and normally closed
relay contacts rated for 120 VAC at 8
amps (30 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 (UL1778)
General Specifications – Optional Features
Metering and System Measurements
Bypass Input Frequency
Bypass Input Voltage
Output Power (kVA, kW, Power Factor)
% Inverter Loading
Inverter Output Voltage
(Option #)
(112)
(113)
(114)
(115)
(117)
Circuit Breaker
65 kAIC Bypass Input
Inverter Output (Non-Automatic)
AC Output
Battery High Interrupt Breaker
(Option #)
(82/85)
(17)
(18)
(86)
Communications
Modbus RTU (RS485 Connection)
Ethernet Webpage
Modbus TCP
SCI-Link
(Option #)
(187)
(187)
(187)
Consult Us for Additional Communication Options
Miscellaneous
Parallel Redundant Configuration
Additional Relay Contacts (Max of 13 available)
Additional LED Indicators(1 green, 9 red available)
Remote External MBS1
Miscellaneous – Continued
Latching Alarms
Lamp Test
ESI (Essential System Indicator) Panel
Alarm Relay Test
(Option #)
(28)
(35)
(123)
(132)
Alarms
High DC Disconnect
Positive/Negative to Ground (2 relays)
High/Low Bypass Source Voltage
High/Low AC Output Voltage
AC Output Overload
High/Low Inverter Output Voltage
Out-of-Sync
Inverter Fuse Blown
Inverter Off Frequency
Bypass Off Frequency
Battery Near Exhaustion
Low AC Input Voltage
High DC Voltage
MBS to Bypass
Bypass Input CB Open
AC Output CB Open
(Option #)
(2)
(3)
(7/6)
(9/8)
(48)
(41/42)
(43)
(44)
(45)
(46)
(60)
(68)
(5)
(78)
(103)
(104)
General Specifications – Performance
DC Input
Nominal Voltage
Range/ #of Cells
(Lead Calcium Type)
Inverter
110 V/55 (96-128 VDC)
120 V/60 (105-140 VDC)
220 V/110 (192-256 VDC)
240 V/120 (210-280 VDC)
277/480: 3-phase, 4-wire
AC Output
Inverter/UPS Ratings
Power Factor
AC Output Voltage2
Regulation
Voltage Adjustment
Frequency
Crest Factor
Total Harmonic
Distortion (THD)
Transient Response
Recovery Time
Overload Capacity
10-225 kVA
0.8 or 1.0
120/208, 220/380 and
277/480: 3-phase, 4-wire
± 1%
± 5%
50 or 60 Hz; ± 0.1%
3:1
100% linear load < 3%
100% non-linear load < 5%
± 5% (0-100% load)
< 50 millisecond to ± 1%
100% - continuous
125% - 10 minutes
150% - 1 minute
Static Switch
Bypass Voltage 120/208, 220/380, and
277/480: 3-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
Slew Rate
Overload Capability
0.5% to 1.5% adjustable
1 Hz/sec to 10 Hz/sec
(adjustable)
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Manual Bypass Switch1
Voltage 120/208, 220/380, and
277/480: 3-phase, 4-wire
Mounting Inside UPS/Inverter
Positions
Construction
Transfer Time
Overload Capacity
Enclosure
Two
600 VAC, rotary drum, makebefore-break type
Zero in both directions
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Environmental
Ambient Temperature 23 to 104oF (-5 to 40oC)
Relative Humidity 0-95% non-condensing
Operating Altitude 10,000 feet (3,048 meters)
Audible Noise3 65-72 dB(A) @ 4.9 feet
(1.5 meter) typical
Cooling
Cable Entry
Mean Time Between
Failure (MTBF)
Cabinet Rating
1
Circuit Breakers are sized at a minimum of 125% of rated current.
Unit weights correspond to a 60 Hz unit. Contact factory for 50 Hz unit weight.
3
A complete model number includes the DC bus (link) voltage, AC output voltage, system frequency, output power factor, and UPS configuration. To “build” a model number, use the “code” in the matrix shown above, following the
example format: 3DPI010-EE-FF-GG-H-J; where EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency;H=Power Factor; J=Inverter configuration (‘F’ for Float, ‘C’ for Cascaded Redundant, ‘P’ for Parallel Redundant). For
Example: A 30 kVA inverter with a 240 VDC bus voltage; 208 output voltage; 60 Hz would have the following model number: 3DPI030-24-20-60-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: 3DPP020C
Sizes are subject to change. Top mounted cooling fans require 0.5 in (13 mm) additional height. Certain optional features and/or combinations may require larger cabinets - consult us
1
2
2
3
Aided Convection or Forced
Air, depending on kVA rating
and design (fans standard
for 40 kVA units and above)
Top and Bottom Entry
Standard
> 205,000 Hours
NEMA 1 / IP-20
(IP-21 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 1-3 dB(A)
BACK
DSS
General Specifications –
Standard Features
Digitally
Controlled
Ferroresonant
Industrial
Inverter
SINGLE PHASE 3-50 kVA
The DSS Inverter from AMETEK
Solidstate Controls combines the
best of both worlds:
(1) The reliability and robust design
of a Ferroresonant Inverter
(2) 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
ProcessPower systems for the ultimate
in user control.
Benefits of the DSS:
• Exceeds 205,000 hours MTBF
• Vacuum pressure impregnated
(VPI) magnetics with 200ºC 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, 3-wire output
for split phase
The Power Behind the Process
PROCESSPOWER UPS 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
System Measurements (Displayed on
LCD Panel)
Total Number 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 Current (+/-)
AC Output Voltage
AC Output Current
AC Output Frequency
Circuit Breakers
DC Input (10 kAIC, minimum)
Bypass Input (14 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)
Power Supply Failure(s)
Relay Controls
The following alarms also include one set
of normally open and normally closed
relay contacts rated for 120 VAC at 8 amps
(30 VDC at 8 amps):
Inverter Trouble (Summary)
Bypass Supplying Load Inverter
Communications Failure (Summary)
Applicable Standards, Codes and
Regulations
NEMA PE-1
ANSI
ANSI/NFPA 70
IEEE
UL/C-UL (UL1778)
ISO9001 Certified Facility
General Specifications – Optional Features
Metering and System Measurements
(Option #)
Bypass Input Frequency
(112)
Bypass Input Voltage
(113)
Output Power (kVA, kW, Power Factor)
(114)
% Inverter Loading
(115)
Inverter Output Voltage
(117)
Analog Meters
(198)
Circuit Breaker
(Option #)
65 kAIC Bypass Breaker
(85)
Inverter Output (Non-Automatic)
(17)
AC Output
(18)
DC High Interrupt Breaker
(86)
Communications
(Option #)
Modbus RTU (RS485 Connection)
(187)
Ethernet Webpage
(187)
Modbus TCP
(187)
SCI-Link
Consult Factory for Additional Communication Options
Miscellaneous
Cascade Redundant Configuration
Additional Relay Contacts (Max of 13 available)
Additional LED Indicators(1 green, 9 red available)
Remote External MBS1
Miscellaneous – Continued
Latching Alarms
Lamp Test
Alarm Relay Test
Alarms
High DC Disconnect
Positive/Negative to Ground (2 relays)
High/Low Bypass Source Voltage
High/Low AC Output Voltage
AC Output Overload
High/Low Inverter Output Voltage
Out-of-Sync
Inverter Fuse Blown
Inverter Off Frequency
Bypass Off Frequency
Battery Near Exhaustion
High DC Voltage
MBS to Bypass
Bypass Input CB Open
AC Output CB Open
(Option #)
(28)
(35)
(132)
(Option #)
(2)
(3)
(7/6)
(9/8)
(48)
(41/42)
(43)
(44)
(45)
(46)
(60)
(5)
(78)
(103)
(104)
General Specifications – Performance
DC Input
Nominal Voltage
Range/ #of Cells
(Lead Acid Type)
Inverter
120 V/60 (105-140 VDC)
240 V/120 (210-280 VDC)
Static Switch
Bypass Voltage 120 Single Phase, 2-wire
120/240 Single Phase, 3-wire
Switch Type Inversely paired set of SCRs (one
set per leg)
Failure Mode Automatically fails to bypass
Transfer Time
AC Output
Inverter/UPS Ratings
Power Factor Range
AC Output Voltage2
3 - 50 kVA
0.8 - 1.0
120: Single phase, 2 wire
120/240: Single phase, 3 wire
Regulation
± 2%
Frequency
60 Hz; ± 0.1%
Crest Factor
Total Harmonic
Distortion (THD)
Transient Response
Recovery Time
Overload Capacity
3:1
100% linear load < 5%
23% for ½ cycle
2% after 50 millisecond
< 50 millisecond to ± 1%
120% - continuous
125% - 10 minutes
150% - 1 minute
Sync Capture Range
Slew Rate
Overload Capability
Make Before Break
0.5% to 0.8% adjustable
1 Hz/sec to 10 Hz/sec
(adjustable)
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Manual Bypass Switch1
Voltage 120: Single phase, 2 wire
120/240: Single phase, 3 wire
Mounting
Inside UPS/Inverter
Enclosure
Positions
Construction
Transfer Time
Overload Capacity
Two
600 VAC, rotary drum, makebefore-break type
Zero in both directions
125% continuous
150% for 10 minutes
200% for 1 minute
1,000% for 1 cycle
Environmental
Ambient Temperature 32 to 104oF (0 to 40oC)
Relative Humidity 0-95% non-condensing
Operating Altitude 10,000 feet (3,048 meters)
Audible Noise3 65-72 dB(A) @ 4.9 feet
(1.5 meter) typical
Cooling Aided Convection or Forced
Air, depending on kVA rating
and design (fans standard for
30 kVA units and above)
Cable Entry Top and Bottom Entry
Standard
Mean Time Between > 205,000 Hours
Failure (MTBF)
Cabinet Rating NEMA 1 / IP-20
(IP-21 with addition of
optional drip shield)
1
Internal Manual Bypass Switch is normally removed when a Remote Manual Bypass Switch is selected
2
Custom Input and Output Voltages available - Consult Us
3
Addition of drip shield may increase the noise by 1-3 dB(A)
BACK
120 VDC (60 Lead Acid Battery Cells)
Model
Number
Rated Output
Power
kVA
kW
Efficiency
Max DC
Current
DC-AC
@ 1.75 VPC
120
240
AC Output Amps1
Cabinet Style
DC I/P
Breaker
120
Bypass Breaker
120
120/240
Weight
lb
kg
Heat Loss
(BTU)
DSS003-2
3
3
83%
34
25
13
GTD1X
50
35
20
885
402
DSS005-2
5
5
85%
56
42
21
GTD1X
70
60
30
885
402
2,097
3,011
DSS007-2
7.5
7.5
85%
84
63
31
GTD1X
100
80
40
1,100
500
4,516
DSS010-2
10
10
85%
112
83
42
GTD1X
125
125
60
1,325
602
6,021
DSS015-2
15
15
86%
166
125
63
GTD1X
200
175
80
2,050
932
8,332
DSS020-2
20
20
86%
221
167
83
GTD1X
250
225
110
2,100
955
11,109
DSS030-2
30
30
87%
328
250
125
GTD1X
400
350
175
2,650
1,205
15,295
DSS040-2
40
40
88%
432
333
167
GTD1X
500
500
225
3,050
1,386
18,611
DSS050-2
50
50
88%
541
417
208
GTD2X
600
600
300
3,700
1,682
23,264
Efficiency
Max DC
Current
kW
DC-AC
@ 1.75 VPC
120
240
240 VDC (120 Lead Acid Battery Cells)
Model
Number
Rated Output
Power
kVA
AC Output Amps1
Cabinet Style
DC I/P
Breaker
240
Bypass Breaker
120
Weight
120/240
lb
kg
Heat Loss
(BTU)
DSS003-2
3
3
84%
17
25
13
GTD1X
25
35
20
685
311
1,950
DSS005-2
5
5
87%
27
42
21
GTD1X
40
60
30
685
311
2,549
DSS007-2
7.5
7.5
88%
41
63
31
GTD1X
50
80
40
830
377
3,490
DSS010-2
10
10
88%
54
83
42
GTD1X
70
125
60
1,125
511
4,653
DSS015-2
15
15
88%
81
125
63
GTD1X
100
175
80
1,455
661
6,979
DSS020-2
20
20
88%
108
167
83
GTD1X
125
225
110
1,635
743
9,305
DSS030-2
30
30
88%
162
250
125
GTD1X
200
350
175
1,995
906
13,958
DSS040-2
40
40
88%
217
333
167
GTD1X
250
500
225
2,240
1,017
18,611
DSS050-2
50
50
88%
270
417
208
GTD2X
350
600
300
2,940
1,335
23,264
Cabinet Dimensions Inches Millimeters
Style
H x W x D
H x W x D
GTD1X
79 x 32 x 36
2,007 x 813 x 914
79 x 54 x 36
2,007 x 1,372 x 914
GTD2X
Model Coding
“EE”
“FF”
“GG”
DC Bus Volts (code)
AC Output Volts (code)
Freq (code)
120 – (12)
120 – (12)
60 – (60)
240 – (24)
120/240 - (24)
120/240 - (24)
1
Circuit Breakers are sized at a minimum of 125% of rated current.
2
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: DSS020-EE-FF-GG; where EE=DC bus voltage; FF=AC Output Voltage; GG=System Frequency.
For Example: A 20 kVA with 120 VDC bus voltage; 120 VAC output, 60 Hz frequency; would have the following model number: DSS020-12-12-60.
For 120/240 VAC output units, add “2” 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: DSS020C
Specifications are subject to change.
Top mounted cooling fans require 0.5 in (13 mm) additional height.
Certain optional features and/or combinations may require larger cabinets.
WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018
BACK
DVS
General Specifications
Performance
AC Input
Single or Three
Phase Regulating
Transformer
Nominal Voltage1
60 Hz: 1ø – 120, 220, 480; 3ø – 208, 480, 600
50 Hz: 1ø – 220, 380, 415; 3ø – 220, 380, 415
Input Range
+ 10% to - 15%
Frequency
50 or 60 Hz, ± 3 Hz
AC Output
kVA Ratings
Regulation
Voltage Adjustment2
Frequency
Total Harmonic Distortion (THD)
Load PF
Maximum Correction Time
Overload Capacity
5-225 kVA
60 Hz – 120, 208/120, 480/277
50 Hz – 220, 415/240, 380/220
± 2 % (± 1% optional)
+ 4%, - 2%
50 or 60 Hz
≤ 1%
0.6 leading/lagging
< 5 cycles
200% for 30 seconds, 1,000% for 1 cycle
Load Transient Response
≤ 2.5% (no load to full load) Recovery < 2 cycles
AC Output Voltage1
5-225 kVA
Standard Features
Circuit Breaker
AC Input Circuit Breaker (14 kAIC minimum)
Relays & LEDs
Common Alarm
Regulator Failure
Fan Failure
Optional Features
Efficiency
≥ 95%
Environmental & Mechanical
Ambient Temperature
32 to 104°F (0 to 40°C)
Relative Humidity
0-95% non-condensing
Operating Altitude
10,000 feet (3,048 meters)
65-72 dB(A) @ 4.9 feet (1.5 meter)
Audible Noise3
Mean Time Between Failure (MTBF) > 205,000 Hours
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 205,000
hours MTBF
Cooling
Aided convection or forced air, depending on kVA rating
and design
Cable Entry
Top or bottom entry standard
Cabinet Rating
NEMA 1 / IP-20 (IP-21 with optional drip shield)
• Low-audible noise of 65-72 dBA
• High efficiency – Operating at 95%
efficiency at full load
• Transient response time of less
than 2 cycles
• Correction time does not exceed
5 cycles
• Low total harmonic distortion of ≤ 1%
• Industrial grade – built to operate in
extreme environmental conditions
• Designed to be used with Inverter/
UPS systems or as stand-alone
operation
• Tight AC output regulation of ± 2%
(± 1% optional)
Unit displayed with optional features
(Option #)
Metering and System Measurements
AC Input Voltage
(20)
AC Input Current
(66)
AC Output Voltage
(80)
AC Output Current
(79)
AC Output Frequency
(81)
Circuit Breaker
AC Output Circuit Breaker (14kAIC minimum)
(18)
Hi-K AC Input Circuit Breaker (65kAIC minimum)
(82)
Alarm – All alarm options below include front panel LEDs and relays
Low AC Output Voltage
(8)
High AC Output Voltage
(9)
AC Output Overload
(40)
Cabinet Over Temperature
(10)
Heatsink Over Temperature
(222)
Miscellaneous
Drip Shield
(65)
Lifting Eye Bolts
(105)
Padlockable Circuit Breakers
(93)
PCB Confrormal Coating
(127)
Fungus and Moisture Proof
(70)
4
(MBS)
3-Position Manual Bypass Switch
(Refer to RMBS datasheet for optional features)
Applicable Standards, Codes and Regulations
NEMA PE-1
ANSI
ANSI/NFPA 70
IEEE
IEC
Unit Manufactured in ISO9001 Certified Facility
Style
H x W x D (Inches)
H x W x D (Millimeters)
GTD1X
GTD2X
79 x 32 x 36
79 x 54 x 36
2,007 x 813 x 914
2,007 x 1372 x 914
DVS Model Coding (Code)5
"DD"
AC Input Volts (code)
120 - (12)
208 - (20)
220 - (22)
380 - (38)
415 - (41)
480 - (48)
600 - (60)
Model Number
"EE"
AC Output Volts (code)
120 - (12)
208 - (20)
220 - (22)
380 - (38)
415 - (41)
480 - (48)
kVA
Input Amps
DVS1005
DVS1007
DVS1010
DVS1015
DVS1020
DVS1030
DVS1040
DVS1050
DVS1060
DVS1080
DVS1100
5
7.5
10
15
20
30
40
50
60
80
100
120 VAC 480 VAC
51
13
77
19
102
26
153
38
206
52
310
77
413
103
516
129
619
155
826
206
1,032
258
Model Number
kVA
Input Amps
10
15
20
30
40
50
60
80
100
125
160
200
225
208 VAC 480 VAC
34
15
51
22
68
30
102
44
136
59
170
74
206
89
275
119
344
149
430
186
551
239
688
298
774
336
3DVS1010
3DVS1015
3DVS1020
3DVS1030
3DVS1040
3DVS1050
3DVS1060
3DVS1080
3DVS1100
3DVS1125
3DVS1160
3DVS1200
3DVS1225
"FF"
Frequency (code)
60 - (60)
50 - (50)
"GG"
Output Volts Regulation (code)
2% - (2R)
1% - (1R)
Input Breaker Ampacity Output Amps Heat Loss BTU/Hr Cabinet Style6
120 VAC
70
100
150
200
300
400
600
700
800
Contact us
480 VAC
20
25
35
50
60
70
150
175
200
300
350
120 VAC
42
63
83
125
167
250
333
417
500
667
833
711
1,066
1,422
2,133
3,592
5,387
7,183
8,979
10,775
14,366
17,958
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
Input Breaker Ampacity Output Amps Heat Loss BTU/Hr Cabinet Style6
208 VAC
50
70
90
150
175
225
300
350
500
600
700
Contact us
480 VAC
20
30
40
60
80
100
125
150
200
250
300
400
500
208 VAC
28
42
56
83
111
139
167
222
278
347
445
556
625
1,422
2,133
2,843
4,265
5,687
7,108
10,775
14,366
17,958
22,447
28,733
35,916
40,405
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD1X
GTD2X
GTD2X
GTD2X
GTD2X
GTD2X
GTD2X
GTD2X
Weight lb
Weight kg
447
497
569
651
824
842
1,050
1,222
1,287
1,350
1,960
203
226
258
296
374
382
477
555
584
612
889
Weight lb
Weight kg
572
676
875
936
1,235
1,352
1,431
1,580
2,035
2,563
3,152
3,844
4,290
260
307
397
425
561
614
649
717
923
1,163
1,430
1,744
1,946
1 Custom input and output voltages available - Consult us
2 AC Input voltage range shifts upon output voltage adjustment
3 Addition of drip shield may increase noise by 1-3 dBA
4 We recommend the 3-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: DVS1010-DD-EE-FF-GG For example: A 10 kVA DVS with 120 VAC input, 120 VAC output, 60 Hz frequency, and 2% output voltage regulation would have the model
number “DVS1010-12-12-60-2R” For 3-Phase output voltage, place a “3” before the DVS model number
Specifications subject to change without notice
6 For additional cabinet styles or footprints, contact us.
BACK
ISN
General Specifications
Isolimiter
Environmental
AC Input
Current-Limited
Regulating
Transformer
32°F to 104°F (0°C)
0-95% non-condensing
Voltage
120, 220, 380, 480 1-phase
Relative Humidity
Range
- 15% to + 10%
Operating Altitude
10,000 feet (3,048 meters)
Frequency1
60 Hz ± 1%
Audible Noise
65-72 dB (A) @ 4.9 feet (1.5 meter)
Addition of drip shield may increase the noise by 1-3 dB (A)
Cooling
Convection < 37.5 kKA
Forced Air > 50 kVA
AC Output
7.5 kVA - 100 kVA
Ambient Temperature
Voltage
120, 220, 380, 480 VAC 1-Phase
Regulation
+ 2%
Frequency1
60
Cable Entry
Top or Bottom
Efficiency
> 88% at full load
Load Power Factor
0.8 to 1.0
Standard Features
Harmonic Distortion
5% (or less) THD
Circuit Breakers
AC Input
Overload
150% to 200% fault clearing
Indicators and Alarms2
Fan Failure (> 50 kVA)
Also available in 120/240 VAC 3-wire, 60 Hz and 600 VAC. Consult us.
Optional Features
Internal Manual Bypass Switch
3-Position; Make Before Break
Circuit Breakers
AC Output
Meters
Voltmeters, Ammeters and Frequency Meter
Indicators & Alarms2
Over Temperature, Low AC Output, High AC Output,
AC Output Overload
Transformer
Noise Attenuation
120 dB common mode
80 dB transverse mode
Construction
All copper windings, electrostatic shield
Isolimiter Block Diagrams
< 50 kVA
> 75 kVA
• High reliability - 205,000 hours MTBF
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.
• Constructed with entirely passive
magnetic components
• Low Audible Noise < 65 dBA
• High Efficiency
• 1/4 cycle output ride-through
Model
Number kVA Efficiency
• Compatible with non-linear loads
• Industrial grade - built to operate in
extreme environmental conditions
• For use with Inverter/UPS systems or in
stand alone operations
AC Input
Current3
Input Circuit
Breaker Ampacity
AC Output
Current3
2
3
Dimensions
Inches
Dimensions
Millimeters
Weight
120
VAC
220
VAC
380
VAC
480
VAC
120
VAC
220
VAC
380
VAC
480
VAC
120
VAC
220
VAC
240
VAC
BTU/hr
HxWxD
HxWxD
lb
kg
ISN1007
7.5
85%
86
47
27
22
125
60
35
30
62
34
31
4,516
79 x 32 x 36
2,007 x 813 x 914
740
336
ISN1010
10
88%
111
61
35
30
150
80
45
40
83
45
42
4,653
79 x 32 x 36
2,007 x 813 x 914
825
374
ISN1015
15
88%
167
91
53
42
225
125
70
60
125
68
62
6,979
79 x 32 x 36
2,007 x 813 x 914
950
431
ISN1020
20
89%
220
120
70
55
300
175
90
70
167
91
83
8,434
79 x 32 x 36
2,007 x 813 x 914 1,235
560
ISN1025
25
89%
275
150
87
69
350
150
110
90
208
114
104
10,543
79 x 32 x 36
2,007 x 813 x 914
1,390
630
ISN1030
30
90%
327
178
103
82
500
200
150
125
250
136
125
11,373
79 x 32 x 36
2,007 x 813 x 914
1,645
746
ISN1037
37.5
91%
404
220
128
101
600
300
175
150
312
170
156
12,654
79 x 32 x 36
2,007 x 813 x 914 1,800
816
ISN1050
50
91%
539
294
170
135
700
400
225
175
417
227
208
16,873
79.5 x 32 x 36
2,019 x 813 x 914
891
ISN1075
75
88%
-------
456
264
209
-------
600
350
300
625
341
312
34,895
79.5 x 54 x 36
2,019 x 1372 x 914 3,935 1,785
ISN1100
100
90%
-------
594
344
272
-------
800
500
350
833
454
417
37,911
79.5 x 32 x 36
2,019 x 813 x 914
Specifications subject to change without notice
1
Heat
Loss
50 Hz available, contact us
Alarms provide one SPDT contact rated for 3 Amps at 120 VAC
At Nominal Line
Certain optional features and/or combinations may require larger cabinets. Contact us. Image shown with optional meters and breakers.
1,965
4,750 2,155
BACK
• Measurement Capability:
- Total Voltage: 0 - 600 V
- Unit Voltage: 6 - 16 VD
- Unit Impedance: 100 μΩ to
20mΩ
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
• Temperature:
- Unit and Ambient: -32°F to l60°F
- Differential: 15°F from default
ambient
• Discharge Events:
- Date & Time
- System Voltage
- Load Current
- Power Removed
- Unit Voltage Decay
• Discharging Logging:
- Programmable
• Connection Capacity:
- Total Number Strings: 8
- Total Number of Units: 520
• Measurement Accuracy
& Repeatability:
- System Voltage: ± 0.1% Full Scale
- Unit Voltage: ± 0.1% of Reading
- Unit Impedance: ± 0.01 mΩ
- Temperature: ± l.0°F
• Power Requirements:
- 110 - 250 VAC 50/60 Hz and
26 - 60 VDC, 95 - 145 VDC (UPS
protected power max .110 watts)
• Enclosure:
- SCM - 600 Controller: NEMA
1 Metal Vertical Wall Mount
(Standard)
- VM24i Module:
Flame Retardant ABS Rack
- Mount 'ears' for 19" rack
(Standard)
- Vertical Wall Mount (Standard)
- Wall Mount Open Frame
Relay Rack Available1
- Wall Mounted NEMA 4
Enclosure Available1
• LED Indicators - VM24i DCM:
- Green= Power 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
Dimensions (H x W x D)
Enclosure Type
Weight
Inches
Millimeters
lb
NEMA 1
17 x 4 x 17
432 x 102 x 432
24
kg
11
NEMA 4
36 x 24 x 8
914 x 607 x 203
80
36
DATA ANALYTICS WITH THE BTECH BVM SOFTWARE SUITE
Communications:
• RS-232 and USB Port Connection For Local Data
Acquisition
• Integral Ethernet Card For Remote Data
Acquisition
•
•
•
•
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
AMETEK Solidstate Controls has teamed with
BTECH to provide the most reliable industrial
critical process UPS 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.
Dashboard View of Battery System Status
1
Real Time Battery System Measurements
Unit/Cell Level Data Analytics
Please contact us for more information on these offerings.
WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 01/2019
BACK
DCR
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
Digital Battery
Charger Systems
Standard Protection Devices
AC Input Breaker (14 kAIC Minimum)
DC Output Fuse
THREE PHASE INPUT VOLTAGE:
208, 380, 480, 600 VAC
Standard Metering
DC Output Voltage
DC Charger Current
AMPERAGE:
32 - 630 A 1
Standard Relays
Fault (Common)
Low DC Voltage
OUTPUT VOLTAGE:
110, 120, 220, 240 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 UPS 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 >205,000 hours
• User definable control and
alarm set-points
• Simultaneous voltage and
current readings
• CE safety and EMC
standards compliant
• UL1012 (UL, cUL) Approved
• Vacuum impregnated
magnetics, 200˚C
• Efficiency up to 95%
Standard Indications
Control Display
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
(Optional Relay)
192R
185R
Control Modes
6 Pulse Standard or 12 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 Power Supply Fail
AC Input Failure
High DC Shutdown
System Reset
System Over Temperature
DC Power Supply Fail
Charger Bridge Over Temperature
Charger Failure
High DC Voltage
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
1
Consult us for additional sizes
(Optional Relay)
(82)
(182)
(183)
Optional Alarms
(Option #)
(Optional Relay)
Charger Fan Fail
Charger Overload
Charger Fuse Blown
Pos/Neg to Ground
Charger Output Circuit Breaker open
(120)
(119)
(67)
(3)
(191)
(120R)
(119R)
(67R)
(3R)
(191R)
Additional Options
(Option #)
Charger Output Diode
(29)
Blocking diode
Note: temperature compensation option
disabled
Notes
Auto-equalize
(130)
After AC power failure > 5 minutes
Alarm Relay Test
(132)
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
(115)
Displays the percentage of output current
being used as compared to total output
current
Input Power Metering
(111)
Optional charger AC input metering for the
LCD Display. (Volts, Amps, Frequency)
Equalize Inhibit
(155)
External potential free dry contact closure
input will prevent the charger from going into
equalize mode.
Dual Charger Current Limit Control
(186)
Optional external input
Battery Temperature Compensation (108)
DC battery float voltage is adjusted based on
room ambient temperature over a range of
32°F and 104°F (0°C to +40°C)
Latching Alarms
Requires manual reset
(28)
Additional relay contacts (maximum of 15
allowed)
General Specifications - Performance
Electrical Specifications
193R
69R
5R
Option Packages
(Option #)
LCD Indicators
Communications Package
(187)
MODBUS RTU
MODBUS over Ethernet
Ethernet Web-page
Capability
MODBUS TCP-IP
Consult us for additional
Communications options
Battery Monitoring Package
(Option #)
65 kAIC Rated AC Input Breaker
DC Output Breaker (10 kAIC)
DC Output Breaker (High kAIC)
Additional Relays
General Specifications - Optional Features
AC Input Monitoring Package
General Specifications - Optional Features
Optional Circuit Breakers
(188)
(189)
AC Input CB Open
AC Input Failure
Low AC Input
High AC Input
Battery Test
Battery Time Remaining
High DC Disconnect
Low DC Disconnect
Battery I & V Metering
Battery Current 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
(26R)
(68R)
(101R)
(124R)
Available When
Package 188 is Selected
High DC Disconnect
Remote Battery Cicuit Breaker Open
Battery Near Exhaustion
Low DC Disconnect
Battery Discharging
(2R)
(57R)
(60R)
(107R)
(197R)
Available When
Package 189 is Selected
AC Input
Available Voltages: 3-phase: 208, 380, 480, 600
(± 10%)
Frequency: 50 or 60 Hz (± 5%)
DC Output
Nominal voltages: 110, 120, 220, 240 VDC
(± 0.5% Float, ± 1.0% Equalize)
Ripple (RMS)
Unfiltered Units: < 2% with battery connected
Filtered: 0.1% with battery connected
Mechanical Specifications
Enclosure
NEMA1 (IP20), 14 GA (2 mm) steel with
hinged front access door and drip shield
Cable Entry
Top or Bottom
Finish
Standard Powder Coat ANSI 61, Light Gray
Cooling
Convection cooling up to 50 A Output
Current
Optional Mechanical Features
(Option #)
Lifting Eye Bolts
(105)
Key-lockable Enclosure
(159)
Pad Lockable Breakers
(93)
IP-21 Rated Cabinet w/optional
Drip Shield
(65)
20% Spare Alarm Terminals
(96)
DC Rated Alarm Contacts
(72)
Conformal Coating of PC Boards
(127)
Space Heater
(88)
Fungus/moisture spay
(70)
Labeling in Other Languages
Environmental
Audible Noise
65-72 dB(A) at 3 feet (1 meter) at half
equipment height
Operating Temp
32°F to 104°F (-0°C to +40°C), To 55°C with
derate
Storage Temp
-4°F to 158°F (-20°C to 70°C)
Operating Humidity
Up to 95% (Non-condensing)
Altitude
10,000 feet (3,048 meters) without derate
Cabinet Type
Dimensions
Inches
Millimeters
FS11
HxWxD
48 x 24 x 24
1,220 x 610 x 610
FS2
HxWxD
79 x 32 x 36
2,007 x 813 x 915
The drip shield adds 5 in (127 mm) to the height
Current Limit: 100 = 100% Current Limit, 115 = 115% Current Limit
1
Specifications subject to change. Consult us for lead times,
optional packages and additional information
BACK
110/120 VDC Output
3Φ AC Input/Frequency1
Circuit Breaker Ampacity2
Cabinet
Style
Heat Loss
(BTU/hr)
DC Output
9
FS1
1,297
45
Model Number
Output
Amps
DC Volts
AC/DC
Efficiency %
208/60
480/60
DCR-120-0032-5
32
120
91
20
AC Amps/Phase
Weight3
Main AC Input
208/60
480/60
lb
kg
25
15
420
191
DCR-120-0040-5
40
120
91
25
11
FS1
1,620
60
35
15
430
195
DCR-120-0050-5
50
120
91
31
13
FS1
2,025
70
40
20
450
204
DCR-120-0063-5
63
120
91
39
17
FS1
2,551
80
50
25
485
220
DCR-120-0080-5
80
120
91
49
21
FS1
3,240
110
70
30
520
236
DCR-120-0100-5
100
120
91
62
27
FS1
4,050
150
80
35
540
245
DCR-120-0125-5
125
120
92
76
33
FS1
4,449
175
100
45
651
295
DCR-120-0160-5
160
120
93
97
42
FS1
4,931
225
125
60
760
345
DCR-120-0200-5
200
120
93
121
52
FS2
6,162
300
175
70
880
399
DCR-120-0250-5
250
120
93
151
65
FS2
7,705
350
200
90
1,100
499
DCR-120-0320-5
320
120
94
191
83
FS2
8,363
500
250
110
1,235
560
DCR-120-0400-5
400
120
95
236
102
FS2
8,619
600
300
150
1,340
608
DCR-120-0500-5
500
120
95
295
128
FS2
10,775
600
400
175
1,815
823
DCR-120-0630-5
630
120
95
372
161
FS2
13,576
800
500
200
2,000
907
220/240 VDC Output
3Φ AC Input/Frequency1
Circuit Breaker Ampacity2
Cabinet
Style
Heat Loss
(BTU/hr)
DC Output
17
FS1
2,593
45
Model Number
Output
Amps
DC Volts
AC/DC
Efficiency %
208/60
480/60
DCR-240-0032-5
32
240
91
40
AC Amps/Phase
Weight3
Main AC Input
208/60
480/60
lb
kg
50
25
490
222
DCR-240-0040-5
40
240
91
49
21
FS1
3,240
60
70
30
510
231
DCR-240-0050-5
50
240
91
62
27
FS1
4,050
70
80
35
535
243
DCR-240-0063-5
63
240
91
78
34
FS1
5,102
80
100
45
560
254
DCR-240-0080-5
80
240
91
99
43
FS1
6,479
110
125
60
610
277
DCR-240-0100-5
100
240
91
123
54
FS1
8,008
150
175
70
650
295
DCR-240-0125-5
125
240
92
153
66
FS2
8,902
175
200
90
720
327
DCR-240-0160-5
160
240
93
193
84
FS2
9,861
225
250
110
1,033
469
DCR-240-0200-5
200
240
93
241
105
FS2
12,328
300
350
150
1,326
601
DCR-240-0250-5
250
240
93
302
131
FS2
15,409
350
400
175
1,470
667
DCR-240-0320-5
320
240
94
382
166
FS2
16,726
500
500
225
1,618
734
DCR-240-0400-5
400
240
95
472
205
FS2
17,242
600
600
300
1,720
780
DCR-240-0500-5
500
240
95
591
256
FS2
21,551
700
800
350
2,685
1,218
Dimensions
Cabinet Type
Dimensions
Inches
Millimeters
FS14
(H x W x D)
48 x 24 x 24
1,220 x 610 x 610
FS2
(H x W x D)
79 x 32 x 36
2,007 x 813 x 915
Custom sizes available, please contact us
2
Circuit breakers are sized for a minimum of 125% rated current
3
Unit weight corresponds to 60 Hz configuration, consult us for 50 Hz unit weights
4
The drip shield adds 5 in (127 mm) to the height
5
Model Number Designation System
1
DCR
A
—
120
B
—
0100
—
C
480
D
—
3
E
—
60
F
—
06
—
100
G
H
—
B
I
A –
Indicates Base Model Number
B – Indicates DC Output Voltage – 120 = 120 VDC, 240 = 240 VDC
C – Indicates DC Output Current – 0032 = 32 A, 0160 = 160 A
D – Indicates AC Input Voltage – 480 = 480 VAC, 380 = 380 VAC
E – Indicates number of Input Phases – 3 = 3 Phase
F – Indicates Input Frequency – 60 = 60 Hz, 50 = 50 Hz
G – Indicates Charger configuration – 06 = 6 Pulse Charger, 12 = 12 Pulse Charger
H – Indicates Current Limit – 100 = 100% Current Limit, 115 = 115% Current Limit
I – Indicates Customization – B = Base, C = Custom
WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018
BACK
FUSIBLE
General Specifications
PANELBOARDS
120 and 120/2401 Rated Panels (Main Lugs)
Available Voltage Ratings
Branch Circuits
- 120, 1-phase, 2-wire
- 120/240, 1-phase, 3-wire
- 120/208, 3-phase, 4-wire
- Series connected current limiting fuses
and molded case (30 amp) breaker;
accepts #14-#4 awg wire
- Connected line to neutral–consult
us for other configurations
- 10 kAIC fault interrupting rating
standard; consult us for higher
short circuit ratings
- Available with 12, 24, 36 or 42 branch
circuits (12 circuits not available on
400 amp panels)
Available Bus Ratings
- 100 Amperes
- 225 Amperes
- 400 Amperes
Mains Connection
- Main Lugs Standard
- Main Breaker available as option
Enclosure Dimensions
Style
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
Power 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.
Inches
Millimeters
HxWxD
HxWxD
FPB1
36 x 28 x 5.75
914 x 711 x 146
FPB2
48 x 28 x 5.75
1,219 x 711 x 146
FPB3
60 x 28 x 5.75
1,524 x 711 x 146
FPB4
72 x 28 x 5.75
1,829 x 711 x 146
1
The Fusible Panelboards Feature:
• Extremely fast, semi-conductor
(current limiting) fuses for sub-cycle
fault clearing
• Flexible configuration enables up to
30 amperes per circuit
• Blown fuse indicators
• UL Listed
• Properly coordinated fuse/breaker
clearing times for critical UPS 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 Fuse Sizes
Note: Panels rated 120/240 3-wire or
120/208 4-wire utilize all single-pole
branch circuits. Consult us for 2-pole
or 3-pole applications.
- 5, 10, 15, 20, 25 or 30 amperes;
accepts #14-#6 awg wire
- Any combination of fuse sizes can
be accommodated (total number of
fuses cannot exceed total number of
branch circuits)
Ampere
Rating
Number of
Circuits
Enclosure
Style
Main Input Lug
Size
100
12
FPB1
#14-1/0
Model Number Structure: FPBXXX-YY-ZZZ-A
Where: XXX= amp rating; YY= # of branch
circuits; ZZZ= voltage rating; A= mains
connection
Ampere
Rating
Code
Number
of Branch
Circuits
Code
Voltage
Rating
Code
Mains Connection
Code
100
100
12
12
120
120
Lugs
Breaker
225
225
24
24
120/240
240
L
B
400
400
36
36
120/208
208
42
42
Example: FPB100-12-240-B: 100 amp Panel with 12 circuits. 120/240 volts, main breaker
120 and 120/2401 Rated Panels (Main Breaker)
Ampere Rating
Number of
Circuits
Enclosure Style
Main Input Lug
Size
100
12
FPB1
100
24
100
100
Weight
lb
kg
123
56
100
24
FPB2
#14-1/0
164
74
100
36
FPB2
#14-1/0
170
77
100
42
FPB3
#14-1/0
225
102
225
12
FPB1
#6-300 kcmil
124
56
225
24
FPB2
#6-300 kcmil
165
74
225
36
FPB2
#6-300 kcmil
172
78
225
42
FPB3
#6-300 kcmil
227
103
400
24
FPB2
2 500-750 kcmil
177
80
400
36
FPB2
2 500-750 kcmil
179
81
400
42
FPB3
2 500-750 kcmil
234
106
The FPB series model number can be
configured using the following parameters:
Voltage Rating, Ampere rating, # of branch
circuits, Main connection.
Weight
120/208 Rated Panels (Main Breaker)
1
Ampere
Rating
Number of
Circuits
Enclosure
Style
Main Input Lug
Size
100
12
FPB1
#14-1/0
Weight
lb
kg
123
56
100
24
FPB2
#14-1/0
164
74
100
36
FPB2
#14-1/0
170
77
100
42
FPB3
#14-1/0
225
102
225
12
FPB1
#6-300 kcmil
124
56
225
24
FPB2
#6-300 kcmil
165
74
225
36
FPB2
#6-300 kcmil
172
78
225
42
FPB3
#6-300 kcmil
227
103
400
24
FPB2
2 500-750 kcmil
177
80
400
36
FPB3
2 500-750 kcmil
179
81
400
42
FPB4
2 500-750 kcmil
234
106
120/208 Rated Panels (Main Lugs)
1
lb
kg
#14-1/0
123
56
FPB2
#14-1/0
164
74
36
FPB2
#14-1/0
170
77
42
FPB3
#14-1/0
225
102
100
24
FPB2
#14-1/0
164
74
36
FPB2
#14-1/0
170
77
Ampere
Rating
Number of
Circuits
Enclosure
Style
Main Input Lug
Size
100
12
FPB1
#14-1/0
Weight
lb
kg
123
56
225
12
FPB1
#6-300 kcmil
124
56
100
225
24
FPB2
#6-300 kcmil
165
74
100
42
FPB3
#14-1/0
225
102
225
36
FPB2
#6-300 kcmil
172
78
225
12
FPB1
#6-300 kcmil
124
56
225
42
FPB3
#6-300 kcmil
227
103
225
24
FPB2
#6-300 kcmil
165
74
400
24
FPB2
2 500-750 kcmil
177
80
225
36
FPB2
#6-300 kcmil
172
78
400
36
FPB3
2 500-750 kcmil
179
81
225
42
FPB3
#6-300 kcmil
227
103
400
42
FPB4
2 500-750 kcmil
234
106
400
24
FPB2
2 500-750 kcmil
177
80
400
36
FPB2
2 500-750 kcmil
179
81
400
42
FPB3
2 500-750 kcmil
234
106
BACK
RIPPLE CHOKE
FILTERS
As your UPS system ages, an induced kickback AC ripple current and voltage may appear on the
DC bus between the battery system and UPS. Over time this may result in the deterioration of the
capacitors and other components of your UPS. 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 10 year PM (PM 10),
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 Current Filter
should be installed to further reduce AC ripple.
RC SERIES
Part Number Reference
UPS Size
5 kVA
7.5 kVA
10 kVA
15 kVA
20 kVA
30 kVA
AMETEK Solidstate Controls Ripple
Choke Filters are designed to help
reduce the AC ripple current kickback
that exists in battery chargers, inverters
and UPS 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
120 VDC
26 x 24 x 20
661 x 610 x 508
60
28
50 A
240 VDC
26 x 24 x 20
661 x 610 x 508
60
28
50 A
240 VDC
26 x 24 x 20
661 x 610 x 508
60
28
100 A
120 VDC
26 x 24 x 20
661 x 610 x 508
70
32
50 A
240 VDC
26 x 24 x 20
661 x 610 x 508
60
28
100 A
120 VDC
26 x 24 x 20
661 x 610 x 508
70
32
100 A
240 VDC
26 x 24 x 20
661 x 610 x 508
70
32
200 A
120 VDC
26 x 24 x 20
661 x 610 x 508
100
46
100 A
240 VDC
26 x 24 x 20
661 x 610 x 508
70
32
200 A
120 VDC
26 x 24 x 20
661 x 610 x 508
100
46
lb
200 A
240 VDC
26 x 24 x 20
661 x 610 x 508
100
46
300 A
120 VDC
26 x 24 x 20
661 x 610 x 508
125
57
200 A
240 VDC
26 x 24 x 20
661 x 610 x 508
100
46
400 A
120 VDC
26 x 24 x 20
661 x 610 x 508
325
148
300 A
240 VDC
26 x 24 x 20
661 x 610 x 508
125
57
500 A
120 VDC
26 x 24 x 20
661 x 610 x 508
325
148
Notes:
a. The size of the AC Ripple Filter is determined based on your UPS 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 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018
BACK
RMBS Specifications
RMBS/RMBS-T
Remote Manual Bypass Switch
with isolation transformer option
SINGLE PHASE 3 - 100 kVA
THREE PHASE 10 - 100 kVA
Solidstate Controls RMBS Series,
Remote Manual Bypass Switch
(RMBS) is a 3-position switch
that allows for complete isolation
of a UPS 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 (UPS) 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).
• 3-Position: Offers Complete Isolation
• Make-Before-Break
• Industrial Grade
• NEMA-1 (IP-20) Wall Mounted
Enclosure for the RMBS unit or a
cabinet for the RMBS-T unit
• Long Life LED Indicators
• Wide Variety of Current and Voltage
Ratings Available
• Isolation transformer option available
Note: Cover photo is RMBS-T, inside photo is RMBS
Model Number
RS030MB-12
RS050MB-12
RS075MB-12
RS100MB-12
RS150MB-12
RS200MB-12
RS300MB-12
RS400MB-12
RS500MB-12
RS600MB-12
RS750MB-12
RS1000MB-12
2RS030MB-24
2RS050MB-24
2RS075MB-24
2RS100MB-24
2RS150MB-24
2RS200MB-24
2RS300MB-24
2RS400MB-24
2RS500MB-24
2RS600MB-24
2RS750MB-24
2RS1000MB-24
RS030MB-22
RS050MB-22
RS075MB-22
RS100MB-22
RS150MB-22
RS200MB-22
RS300MB-22
RS400MB-22
RS500MB-22
RS600MB-22
RS750MB-22
RS1000MB-22
3RS100MB-20
3RS150MB-20
3RS200MB-20
3RS300MB-20
3RS400MB-20
3RS500MB-20
3RS600MB-20
3RS750MB-20
3RS1000MB-20
3RS100MB-38
3RS150MB-38
3RS200MB-38
3RS300MB-38
3RS400MB-38
3RS500MB-38
3RS600MB-38
3RS750MB-38
3RS1000MB-38
3RS100MB-48
3RS150MB-48
3RS200MB-48
3RS300MB-48
3RS400MB-48
3RS500MB-48
3RS600MB-48
3RS750MB-48
3RS1000MB-48
UPS kVA
Rating
3
5
7.5
10
15
20
30
40
50
60
75
100
3
5
7.5
10
15
20
30
40
50
60
75
100
3
5
7.5
10
15
20
30
40
50
60
75
100
10
15
20
30
40
50
60
75
100
10
15
20
30
40
50
60
75
100
10
15
20
30
40
50
60
75
100
Voltage
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120, 1-PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
120/240, Split PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
220, 1-PH
208/120, 3-PH
208/120, 3-PH
208/120, 3-PH
208/120, 3-PH
208/120, 3-PH
208/120, 3-PH
208/120, 3-PH
208/120, 3-PH
208/120, 3-PH
380/220, 3-PH
380/220, 3-PH
380/220, 3-PH
380/220, 3-PH
380/220, 3-PH
380/220, 3-PH
380/220, 3-PH
380/220, 3-PH
380/220, 3-PH
480/277, 3-PH
480/277, 3-PH
480/277, 3-PH
480/277, 3-PH
480/277, 3-PH
480/277, 3-PH
480/277, 3-PH
480/277, 3-PH
480/277, 3-PH
RMBS-T Specifications4
Model Number
kVA Size
Nominal
Current
25
42
63
83
125
167
250
333
417
500
Switch
Rating1
50 A
85 A
85 A
130 A
200 A
255 A
400 A
510 A
600 A
765 A
Enclosure Dimensions H x W x D
Inches
Millimeters
24 x 24 x 10
610 x 610 x 254
24 x 24 x 10
610 x 610 x 254
24 x 24 x 10
610 x 610 x 254
24 x 24 x 10
610 x 610 x 254
28 x 24 x 14
711 x 610 x 356
28 x 24 x 14
711 x 610 x 356
34 x 32 x 15
864 x 813 x 381
34 x 32 x 15
864 x 813 x 381
34 x 32 x 17
864 x 813 x 432
34 x 32 x 17
864 x 813 x 432
Weight
lb
kg
85
39
85
39
85
39
85
39
100 45
100 45
150 68
150 68
160 73
175 79
Optional Breaker
Ratings2
30 A
60 A
80 A
125 A
175 A
225 A
350 A
500 A
600 A
Contact us
For this information please contact your sales representative
13
21
31
42
63
83
125
167
208
250
313
50 A
50 A
50 A
85 A
85 A
130 A
200 A
255 A
400 A
400 A
400 A
24 x 24 x 10
24 x 24 x 10
24 x 24 x 10
24 x 24 x 10
24 x 24 x 13
24 x 24 x 13
28 x 24 x 14
28 x 24 x 14
34 x 32 x 15
34 x 32 x 15
34 x 32 x 17
610 x 610 x 254
610 x 610 x 254
610 x 610 x 254
610 x 610 x 254
610 x 610 x 330
610 x 610 x 330
711 x 610 x 356
711 x 610 x 356
864 x 813 x 381
864 x 813 x 381
864 x 813 x 432
85
85
85
85
100
100
125
125
150
175
175
39
39
39
39
45
45
57
57
68
79
79
20 A
30 A
40 A
60 A
80 A
125 A
175 A
225 A
300 A
350 A
400 A
14
23
34
45
68
91
136
182
227
273
341
455
28
42
56
83
111
139
167
208
50 A
50 A
50 A
85 A
85 A
130 A
200 A
255 A
400 A
400 A
510 A
600 A
50 A
85 A
85 A
130 A
200 A
200 A
255 A
400 A
24 x 24 x 10
24 x 24 x 10
24 x 24 x 10
24 x 24 x 10
24 x 24 x 10
24 x 24 x 10
28 x 24 x 14
28 x 24 x 14
34 x 32 x 15
34 x 32 x 15
34 x 32 x 15
34 x 32 x 17
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 14
28 x 28 x 14
28 x 28 x 14
34 x 32 x 17
610 x 610 x 254
610 x 610 x 254
610 x 610 x 254
610 x 610 x 254
610 x 610 x 254
610 x 610 x 254
711 x 610 x 356
711 x 610 x 356
864 x 813 x 381
864 x 813 x 381
864 x 813 x 381
864 x 813 x 432
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 356
610 x 610 x 356
610 x 610 x 356
864 x 813 x 432
85
85
85
85
100
100
150
150
175
175
175
175
100
100
100
125
125
125
165
165
39
39
39
45
45
68
68
79
79
79
79
79
45
45
45
57
57
57
75
75
20 A
30 A
50 A
60 A
90 A
125 A
175 A
250 A
300 A
350 A
500 A
600 A
40 A
60 A
70 A
125 A
150 A
175 A
225 A
300 A
15
23
30
46
61
76
91
114
152
12
18
24
36
48
60
72
90
120
50 A
50 A
50 A
85 A
85 A
130 A
130 A
200 A
200 A
50 A
50 A
50 A
50 A
85 A
85 A
130 A
130 A
200 A
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 14
24 x 24 x 14
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
24 x 24 x 13
28 x 24 x 14
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 356
610 x 610 x 356
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
610 x 610 x 330
711 x 609 x 356
100
100
100
125
125
125
165
165
165
100
100
100
125
125
125
165
165
165
45
45
45
57
57
57
75
75
75
45
45
45
57
57
57
75
75
75
20 A
30 A
40 A
60 A
80 A
100 A
125 A
150 A
200 A
20 A
25 A
40 A
50 A
70 A
80 A
100 A
125 A
175 A
For this information please contact your sales representative
For this information please contact your sales representative
Input Voltage
Output Voltage
lb
Weight
kg
RST030MB
3 kVA
208, 480, 600
120
765
347
RST050MB
5 kVA
208, 480, 600
120
760
345
RST075MB
7.5 kVA
208, 480, 600
120
760
345
RST100MB
10 kVA
208, 480, 600
120
760
345
RST150MB
15 kVA
208, 480, 600
120
760
345
RST200MB
20 kVA
208, 480, 600
120
850
386
RST300MB
30 kVA
208, 480, 600
120
955
433
RST400MB
40 kVA
208, 480, 600
120
1,050
476
RST500MB
50 kVA
208, 480, 600
120
1,050
476
RST600MB
60 kVA
208, 480, 600
120
1,170
531
RST750MB
75 kVA
208, 480, 600
120
1,200
544
RST800MB
80 kVA
208, 480, 600
120
1,325
601
RST1000MB
100 kVA
208, 480, 600
120
1,325
601
770
349
3RST100MB
10 kVA
208, 480, 600
208, 4803
770
349
3RST150MB
15 kVA
208, 480, 600
208, 4803
770
349
3RST200MB
20 kVA
208, 480, 600
208, 4803
850
386
3RST300MB
30 kVA
208, 480, 600
208, 4803
3
1,025
465
3RST400MB
40 kVA
208, 480, 600
208, 480
1,295
587
3RST500MB
50 kVA
208, 480, 600
208, 4803
1,295
587
3RST600MB
60 kVA
208, 480, 600
208, 4803
1,345
610
3RST750MB
75 kVA
208, 480, 600
208, 4803
3
1,550
703
3RST800MB
80 kVA
208, 480, 600
208, 480
3
1,550
703
3RST1000MB
100 kVA
208, 480, 600
208, 480
1
4
Denotes U.L. Rating
All RMBS-T enclosure dimensions are: 79 x 32 x 36 inches (2,007 x 813 x 914 millimeters)
2
Eaton Breakers
Specifications subject to change without notice
3
Available for RMBS-T 480 input voltage option only
Consult us for sizes not listed
BACK
General Specifications
Standard Features
Optional Features
• Nema-1 (IP-20) wall mounted enclosure for the RMBS models and a
cabinet for the RMBS-T models
• ANSI 61 light gray
• 3-positions for complete isolation:
– Normal-load fed from Inverter (UPS)
– 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)
• Power 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)
(Option #)
• Padlockable handle to lock switch in a position
(S800P)
• Solenoid (electronic) interlock to prevent
switch operation if inverter and bypass source
are not in sync
(S800L)
• Output circuit breaker1
(18)
• Bypass source input circuit breaker1
(95)
• Padlockable breakers
(93)
• Aux contacts for CBs
(145)
• Indicating light package; includes:
– Not in sync
– Switch in normal source to load
– Switch in bypass to load
– Switch in isolation bypass
(90)
• Voltmeter with selector switch to indicate:
– Normal input
– Bypass input
– AC output voltage
(89)
Eaton breakers: Available in high kAIC ratings.
1
Remote Manual Bypass Switch One Line Diagram
Specifications subject to change without notice
WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018
BACK
SERVER CONTROL SOFTWARE
Maintain control of the most complex
remote pumping stations with stateof-the-art server control software.
This enhanced Uninterruptible Power
Supply (UPS) 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 (16 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 2,000 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 UPS 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.
Dashboard allows for full control of all server protocols
THE SOLUTION
AMETEK Solidstate Controls' IntelliShed
provides the UPS 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 UPS
backup operation (battery discharge
cycles). The UPS communicates constantly
with all servers in the circuit and if a
backup power situation arises, the UPS will
determine when, and in what sequence
the servers are to power down.
As a failsafe mode, the UPS also times
out servers based on a pre-determined
time interval to eliminate any chance of
premature server power failure.
IntelliShed’s real time system monitoring
WORLD HEADQUARTERS
875 Dearborn Drive
Columbus, Ohio 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018
BACK
MONITOR
YOUR SYSTEM
REMOTE MONITORING SOFTWARE
UPSView remotely monitors your
AMETEK Solidstate Controls digital
inverter, charger/rectifier or
Uninterruptible Power Supply (UPS)
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. UPSView 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
UPSView 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 UPSView 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 UPSView 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 2 seconds.
TRACK HISTORY
• Track events through UPSView’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 43085
Phone: +1-614-846-7500
Toll Free: +1-800-635-7300
Fax: +1-614-885-3990
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 12/2018