PRODUCT
Major Products
UPS 5000 Series
5100 Series
Single Phase / Single Phase
A pure sine wave, IGBT inverter–based online double-conversion UPS,
delivering uninterrupted, high-quality power to a wide range of IT and industrial equipment.
Features
High-reliability operation
- Online type based on double conversion (converter–inverter)
- Reduced charging time through high-performance charging section
- Implementation of a redundant power system through additional expansion
- Protection function against deep discharge
- Extended battery life
- Built-in overvoltage, overcurrent, and surge protection circuits, and built-in EMI filter for high-frequency attenuation
- Minimized waveform distortion through built-in filter circuit to prevent malfunction and extend equipment lifespan
Operation with high functionality
- Startup by inverter (startup possible even during battery discharge)
- Automatic transfer function (Bypass–Inverter)
- System protection function in extreme environments
- Economic benefits through high efficiency with reduced heat and noise
User Interface
- Efficient management through the use of an LCD display and mimic panel
- Easy installation and operability
- UPS self-diagnostic function
OPTION
- Communication solution via RS-232C
- Integrated management solution via SNMP
- Remote control and management function for distant locations
Dimensions & Outline Drawings, Configuration, Operating Functions
Capacity(KVA)
1
2
3
5
7.5
10
15
20
30
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Overall Dimensions(mm)
Width
290
290
290
290
395
395
560
560
750
Depth
570
570
570
570
750
750
750
750
850
Height
720
720
720
720
800
800
900
900
1245
Total Height
785
785
785
785
905
905
1005
1005
1350
Weight(kg)
80
120
130
170
190
250
280
480
580
* The enclosure dimensions and weight are based on the rated load capacity and may vary depending on application and operating characteristics.
Electrical Specifications
Category
Characteristics
Characteristics
Characteristics
Characteristics
Characteristics
Characteristics
Characteristics
Characteristics
Characteristics
Capacity (kVA)
1
2
3
5
7.5
10
15
20
30
General Characteristics
General Characteristics
General Characteristics
General Characteristics
General Characteristics
General Characteristics
General Characteristics
General Characteristics
General Characteristics
General Characteristics
Cooling Method
Forced air cooling
Forced air cooling
Forced air cooling
Forced air cooling
Forced air cooling
Forced air cooling
Forced air cooling
Forced air cooling
Forced air cooling
Rated Operating Condition
100% continuous operation
100% continuous operation
100% continuous operation
100% continuous operation
100% continuous operation
100% continuous operation
100% continuous operation
100% continuous operation
100% continuous operation
Rectification and Charging Control Method
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Diode bridge / thyristor phase control
Rectification and Charging Components
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Diode, MOS-FET / thyristor
Inverter Control Method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
High-frequency (20 kHz) instantaneous control PWM method
Inverter Components
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
I.G.B.T (Insulated Gate Bipolar Transistor)
ST/SW Transfer Method
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Uninterrupted synchronous transfer
Transformer Insulation Class
Class H
Class H
Class H
Class H
Class H
Class H
Class H
Class H
Class H
Input Characteristics
Input Characteristics
Input Characteristics
Input Characteristics
Input Characteristics
Input Characteristics
Input Characteristics
Input Characteristics
Input Characteristics
Input Characteristics
Phase
1Φ 2W
1Φ 2W
1Φ 2W
1Φ 2W
1Φ 2W
1Φ 2W
1Φ 2W
1Φ 2W
1Φ 2W
Rated Voltage
110V, 220V
110V, 220V
110V, 220V
110V, 220V
110V, 220V
110V, 220V
110V, 220V
110V, 220V
110V, 220V
Voltage Variation Range
±10% of rated value
±10% of rated value
±10% of rated value
±10% of rated value
±10% of rated value
±10% of rated value
±10% of rated value
±10% of rated value
±10% of rated value
Rated Frequency
60 Hz ±5%
60 Hz ±5%
60 Hz ±5%
60 Hz ±5%
60 Hz ±5%
60 Hz ±5%
60 Hz ±5%
60 Hz ±5%
60 Hz ±5%
Output Characteristics
Output Characteristics
Output Characteristics
Output Characteristics
Output Characteristics
Output Characteristics
Output Characteristics
Output Characteristics
Output Characteristics
Output Characteristics
Phase
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
1Φ 2W, 1Φ 3W
Rated Voltage
110V, 220V, 110V/220V
110V, 220V, 110V/220V
110V, 220V, 110V/220V
110V, 220V, 110V/220V
110V, 220V, 110V/220V
110V, 220V, 110V/220V
110V, 220V, 110V/220V
110V, 220V, 110V/220V
110V, 220V, 110V/220V
Voltage Regulation
Within ±2%
Within ±2%
Within ±2%
Within ±2%
Within ±2%
Within ±2%
Within ±2%
Within ±2%
Within ±2%
Rated Frequency
60 Hz ±0.2%
60 Hz ±0.2%
60 Hz ±0.2%
60 Hz ±0.2%
60 Hz ±0.2%
60 Hz ±0.2%
60 Hz ±0.2%
60 Hz ±0.2%
60 Hz ±0.2%
Frequency Synchronization Range
±1 Hz
±1 Hz
±1 Hz
±1 Hz
±1 Hz
±1 Hz
±1 Hz
±1 Hz
±1 Hz
(1) Transient Voltage Deviation
Within ±5%
Within ±5%
Within ±5%
Within ±5%
Within ±5%
Within ±5%
Within ±5%
Within ±5%
Within ±5%
(2) Transient Response Speed
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Within 20 ms (recovery to within ±2%)
Output Voltage Adjustment
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
±5%
Total Harmonic Distortion
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
THD within 3% (based on 100% linear load)
Overload Capacity
120% for less than 10 minutes
120% for less than 10 minutes
120% for less than 10 minutes
120% for less than 10 minutes
120% for less than 10 minutes
120% for less than 10 minutes
120% for less than 10 minutes
120% for less than 10 minutes
120% for less than 10 minutes
Power Factor
Lagging 0.8%
Lagging 0.8%
Lagging 0.8%
Lagging 0.8%
Lagging 0.8%
Lagging 0.8%
Lagging 0.8%
Lagging 0.8%
Lagging 0.8%
Noise
55 dB or less
≤ 65db
≤ 65db
≤ 65db
≤ 65db
≤ 65db
≤ 65db
≤ 65db
≤ 65db
Overall Efficiency
≥ 80%
≥ 80%
≥ 80%
≥ 85%
≥ 85%
≥ 85%
≥ 85%
≥ 85%
≥ 85%
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer
Synchronous Transfer Time
Within 4 ms
Within 4 ms
Within 4 ms
Within 4 ms
Within 4 ms
Within 4 ms
Within 4 ms
Within 4 ms
Within 4 ms
Transfer Conditions
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Inverter abnormality / output overload / DC under-voltage / manual transfer
Backup Time
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
30 minutes to 8 hours (selectable)
OPTION
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
Remote monitoring and control via RS-232C port
* The enclosure dimensions and weight are based on the rated load capacity and may vary depending on application and operating characteristics.