Real Cycler
Available for charge-discharge evaluation tests for all kinds of batteries
from single cells, modules to packs.
Smallest size in the industry/ Less than ±0.02% current monitor accuracy/ Less than 3msec response speed
※RC1_SA type
The picture shown is a CG appearance image.
1. Real Cycler Summary ・・・p1
2. Product Line-up and Accessories ・・・p4
3. RC Series Summary ・・・p5
4. Accessories ・・・p7
5. Function List ・・・p9
6. Charge-discharge Test Conditions Settings ・・・p11
7. Charge-discharge Mode ・・・p13
8. RC Series Specification Table ・・・p14
© SoftEnergy Controls Inc. 2013
1. Real Cycler Summary_1
What is Real Cycler?
Real Cycler is the name of our cycle testers. They can be
used for charge-discharge tests for all kinds of batteries
from single cells, modules to packs. We use high-speed
and high-frequency switching power supplies for Real
Cycler. Therefore, stable, efficient and quality outputs are
possible. In addition, with optional accessories, Real Cycler
works as charge-discharge evaluation equipment, which
can measure the ripple current superposition, pulse outputs and dynamic AC/IR.
Real Cycler, sophisticated and accurate bidirectional DC power supplies,
can be used for charge-discharge cycle tests for various types of batteries,
capacitors and fuel cells. In general, ripple superposition units, pulse output
units and dynamic AC-IR units can control waveform freely and widely. By
combining that feature of those units with Real Cycler, you can analyze any
complicated characteristics of batteries. In addition, Real Cycler tests “utility interaction” by functioning as an integral system for distributed generators such as solar generators, wind generators and fuel batteries. Ultimately, thanks to Real Cycler, you will be able to establish the simulation
system through communication between Real Cycler and load equipment
or batteries.
5V single cell
evaluation system
System upgrade
Ripple current
superposition/
Pulse output/
Dynamic AC/IR
Simulator function
Charge-discharge of
inverters, motors,
EVs and PHEVs
Large capacity
charge-discharge
250V/500V
Evaluation system
for pack and
lead-acid batteries
Development and
manufacturing of
custom power supplies
Real Cycler ｜ 1
1. Real Cycler Summary_2
Compact
W: 478mm H: 176mm D: 680mm (5V60A10ch 6KVA unit)
(approx. W: 18 13/16in H: 6 15/16in D: 26 3/4in)
Multi-channel and Multi-slot System
Compared to our conventional power supply, Real Cycler needs
only 1/2 space for its power supply, yet mounts twice the number of
channels.
Excellent Control Function: Accuracy ±0.05%
*HF type
Sine-wave PWM control using a bidirectional PFC circuit.
Efficient AC regeneration / Current rise and fall characteristics within
3msec / 0V discharge function
Various Options
Ripple current superposition units / Pulse output units / Dynamic
AC/IR units
Main Application
■ R&D:
Charge-discharge characteristic tests and capacity/lifetime evaluation for various batteries.
■ QA and Inspection Line:
Battery capacity / internal resistance check / auto inspection system
■ Production Line:
Charge-discharge inspection / auto test system for various batteries
■ User Support:
Capacity evaluation and replicate error conditions
Application System Examples
Large-current charge-discharge
evaluation system for EV batteries
Charge-discharge evaluation system for
B4-sized large capacity laminate batteries
Real Cycler ｜ 2
1. Real Cycler Summary_3
(1) Battery Evaluation Test
(2) Application to Various Simulations
(1) Battery Evaluation Test
Thanks to Real Cycler, charge-discharge tests for various secondary batteries including li-ion secondary batteries
have become easier and more convenient.
■ Charge-discharge
tests of secondary batteries
tests
■ Cycle tests
■ Lifetime tests
■ Internal resistance tests
• Single cells/ battery modules
■ Capacity
Lithium-ion secondary batteries
• Battery Modules
Lithium-ion secondary batteries
Accurate
• Battery Packs
Sophisticated
Nickel metal hydride batteries
lead-acid batteries
Capacitors/ fuel-cell batteries
Space-saving
(2) Application to Various Simulations
The simulations of various systems have become easier by using our charge-discharge equipment as a core system.
• Inverter simulators
• Motor simulators
Apply to various simulations
Load and output tests of
renewable energy sources
Charge-discharge simulations
of EV, PHEV and HEV
Real Cycler ｜ 3
2. Product Line-up and Accessories
Multi-channel/ multi-slot/ bidirectional switching power supplies
Accurate and Sophisticated
Real Cycler (SA type)
Single cell tester
5V
RC1,RC2,RC3
Sophisticated Real Cycler
(HF type)
Module tester
50V
RC4,RC5
Standard Real Cycler
(NF type)
Pack tester
500V
RC6,RC7,RC8
6A
12A
Product line-up
24A
36A
48A
Custom Real Cycler
60A
120A
Temperature input unit
240A
Single cell voltage high-speed input unit
360A
Accessories
Large-current DC/IR system
Ripple current superposition unit
Dynamic AC/IR unit
Custom available
Pulse output unit
Real Cycler ｜ 4
3. RC Series Summary_1
Series
RC1
for
single
cells
RC2
for
single
cells
RC3
for
single
cells
RC4
for
module
batteries
RC5
for
module
batteries
Charge-discharge
power supply type
5V 12A to 1000A
（HF & SA type）
5V 3A to 360A
（NF & SA type）
5V 10mA to 1A
（NF type）
Summary (AC/DC unit control method and DC/DC unit control method)
■ Sophisticated power supply for charge-discharge tests which require a high-speed
response
This power supply can discharge down to 0V. Thus, it can be utilized for all kinds of overdischarge and pulse tests.
The current rise/fall characteristics of charge-discharge switching time are both within
3msec, which systemizes this power supply multifunctionally.
You can choose either HF type or SA type depending on the current accuracy below.
• Current monitor accuracy of HF type: ±0.05%
• Current monitor accuracy of SA type: ±0.02%
• AC/DC unit control method = AC regeneration power supply using a bidirectional PFC
circuit
• DC/DC unit control method = Bidirectional resonance high-frequency switching power
supply (Isolation type)
■ Standard power supply for charge-discharge tests
This power supply can discharge down to 1.8V. Thus, it can be utilized for all kinds of tests
except special discharge tests and pulse tests.
We have achieved to reduce overall product costs by 50%, as well as its size to world’s
smallest class compared to our conventional one.
You can choose either NF type or SA type depending on the current accuracy below.
• Current monitor accuracy of NF type: ±0.05%
• Current monitor accuracy of SA type: ±0.02%
• AC/DC unit control method = AC regeneration power supply using a bidirectional PFC circuit
• DC/DC unit control method = Bidirectional resonance high-frequency switching power
supply (Isolation type)
■ Low-current power supply for charge-discharge tests at a low current of less than 1A
• AC/DC unit control method = Simplified PFC method
• DC/DC unit control method = Dropper power supply (Linear type Power Supply)
50V 30A to 600A
（HF & SA type）
■ Sophisticated power supply for charge-discharge tests for battery modules up to 50V
You can choose either HF type or SA type depending on the current accuracy.
• AC/DC unit control method = AC regeneration power supply using a bidirectional PFC circuit
• DC/DC unit control method = Bidirectional resonance high-frequency switching power
supply (Isolation type)
60V 30A to 500A
（HF & SA type）
■ Sophisticated power supply for charge-discharge tests for battery modules up to 60V
You can choose either HF type or SA type depending on the current accuracy.
• AC/DC unit control method = AC regeneration power supply using a bidirectional PFC circuit
• DC/DC unit control method = Bidirectional resonance high-frequency switching power
supply (Isolation type)
Real Cycler ｜ 5
3. RC Series Summary_2
Series
RC6
for
pack
batteries
RC7
for
pack
batteries
RC8
for
pack
batteries
Charge-discharge
power supply type
Summary (AC/DC unit control method and DC/DC unit control method)
250V 6A to 500A
（HF & SA type）
■ Sophisticated power supply for charge-discharge tests for battery packs up to 250V
You can choose either HF type or SA type depending on the current accuracy.
• AC/DC unit control method = AC regeneration power supply using a bidirectional PFC circuit
• DC/DC unit control method = Bidirectional resonance high-frequency switching power
supply (Isolation type)
500V 6A to 500A
（HF & SA type）
■ Sophisticated power supply for charge-discharge tests for battery packs up to 500V
You can choose either HF type or SA type depending on the current accuracy.
• AC/DC unit control method = AC regeneration power supply using a bidirectional PFC circuit
• DC/DC unit control method = Bidirectional resonance high-frequency switching power
supply (Isolation type)
600V 6A to 320A
（HF & SA type）
■ Sophisticated power supply for charge-discharge tests for battery packs up to 600V
You can choose either HF type or SA type depending on the current accuracy.
• AC/DC unit control method = AC regeneration power supply using a bidirectional PFC circuit
• DC/DC unit control method = Bidirectional resonance high-frequency switching power
supply (Isolation type)
Real Cycler ｜ 6
4. Accessories_1
(1) Ripple Current Superposition Unit
(2) Pulse Charge-discharge Unit
(1) Ripple Current Superposition Unit
Connecting this unit with one of our charge-discharge power
supplies from 5V to 500V enables you to conduct the
charge-discharge tests that are superimposed various ripples.
Ripple Current Superposition Unit
Charge-discharge
Power Supply
5V to 500V
Ripple output current:
40A at Max
DC conduction current:
60A at Max
Maximum conduction current:
100A at Max
Ripple output current accuracy:
±1%
Ripple output waveform:
Square wave/ triangle wave/ sine wave
Ripple output frequency:
50 Hz to 20 KHz (sine-wave output)
> 80A 3000Hz 0.3msec Pulse
Triangle-wave superposition
Square-wave superposition
Sine-wave superposition
(2) Pulse Charge-discharge Units
You can conduct any pulse charge-discharge tests you want by just connecting this unit with one of our chargedischarge power supplies from 5V to 500V. You can also conduct charge-discharge tests by using this pulse
charge-discharge unit only.
■ Pulse charge-discharge specification table for battery packs
■ Charge-discharge specification table for single cells
Charge-discharge voltage:
500V at Max
Charge-discharge voltage:
17V at Max
Pulse output current:
±10A at Max
Charge-discharge current:
±10A
Pulse output current accuracy:
±0.1%
Accuracy of output voltage and current:
±1%
Pulse output waveform:
Square-wave superposition
Pulse charge-discharge:
Available
Pulse output minimal time:
0.1msec
Number of mounted channels:
3ch
Number of mounted channels:
3ch
Pulse Charge-discharge Unit
for Pack Batteries
■ Charge-discharge waveform
Pulse Charge-discharge Unit
for Single Cells
5A 30msec charge + 10A 3msec discharge
Input
waveform
Charge 5A
Rest 0A
Charge-discharge
Power Supply
5V to 500V
Discharge 10A
Real Cycler ｜ 7
4. Accessories_2
(3) Dynamic AC/IR Unit
Thanks to our dynamic AC/IR unit, you can measure the internal resistance of batteries during large-current charging and discharging.
(3) Dynamic AC/IR Unit (Units to measure the internal resistance of batteries during charging and discharging)
Our dynamic AC/IR unit can measure the internal resistance of large batteries at an absolute value in a dynamic
state (large current conduction). This system will take the place of a conventional DC/IR unit, which measures battery
internal resistance only at a relative value. Once you set the DC current value close to the actual conduction state,
you can measure the battery internal resistance by using LCR meters or AC/IR meters. Our AC/IR unit enables you
to change the value of AC current or frequency in order to easily measure the battery internal resistance in the state
which is close to the actual usage condition.
Battery internal resistance consists of L, C and R. To measure the internal resistance of small batteries for consumer use, you need an AC/IR
meter in a static (open) state. However, to measure the absolute value of battery internal resistance for EV by an AC/IR meter is impossible
because the value of C is too large. Therefore, it is usual to measure the relative value by using a DC/IR meter in a dynamic (conduction) state.
Large Capacity
Secondary Batteries
Charge-discharge
Power Supply
Dynamic AC/IR Unit
↓If the set current values are too low as shown below,
you cannot stably measure the resistance.
Explanatory
note
AC output current :
From 10mA to 5A
DC conduction current :
60A at Max/unit, Parallel operation is available
Maximum conduction current :
65A at Max/unit, Parallel operation is available
AC/IR measurement accuracy :
±0.1%
AC output frequency :
From 50Hz to 10KHz (sine-wave output)
Measurement item :
L, C, R
Measurement resolution capacity : 0.01mΩ (when using a dedicated controller)
↓If you set the current value properly as shown below,
you can stably measure the resistance.
Explanatory
note
Battery impedance (DC=0)
Impedance (mΩ)
Impedance (mΩ)
Battery impedance (DC=0)
Frequency(Hz)
Explanatory
note
Frequency(Hz)
Explanatory
note
Battery impedance (DC Superposition)
Impedance (mΩ)
Impedance (mΩ)
Battery impedance (DC=0, DC=1A)
Frequency(Hz)
Frequency(Hz)
Real Cycler ｜ 8
5. Function List_1
Standard function
Single cells
Function
1
Various kinds of charge-discharge test modes for sophisticated secondary batteries
including Li-ion batteries, as well as lead-acid batteries, capacitors and fuel-cell
batteries.
2
Application to various simulations including inverter simulators and motor
simulators other than functioning as a battery tester.
3
The output tests for renewable energy sources such as solar, wind and micro
hydro.
4
The output tests for pure-EVs, PHEVs and fuel-cell vehicles.
5
Utilized for various tests for smart grid systems and battery charging stations,
which are parts of environmental infrastructure. (CHAdeMO protocol, V2G protocol)
6
Tests for ultra-small capacity batteries and experiments using beaker cells or
reference electrodes.
7
Over-discharge test function: Discharge the cell voltage down to minus value.
8
Discharge the cell voltage down to 1.8V without using circuits attached to bias
power supplies. (Available for the charge-discharge of iron phosphate li-ion
batteries or other batteries)
9
Parallel operation function (Master-slave function)
10
Ultra high-accuracy control by using our state-of-the-art current sensing technology. (Current monitor accuracy: less than ±0.02%)
11
Ultra high-speed response function (Rise/fall: within 3msec)
12
Ultra high-speed charge-discharge switching time
(From charge to discharge/ from discharge to charge: within 3msec)
13
95% power factor, thanks to mounting a bidirectional PFC circuit.
14
Equipped with a bidirectional simplified PFC circuit which regenerates AC
efficiently.
Optional function
Module
batteries
Pack batteries
RC1 RC2 RC3 RC4 RC5 RC6 RC7 RC8
We customize our software to meet your needs
We customize our software to meet your needs
Real Cycler ｜ 9
5. Function List_2
Standard function
Single cells
Function
15
The available range of one ripple current superimposed unit of 50Hz to 20KHz:
100A and from 5V to 500V.
16
The available range of one ultra high-speed pulse charge-discharge unit: 10A and
from 5V to 500V.
17
The available range of one large current dynamic AC/IR measurement unit: 100A
and from 5V to 500V.
18
Battery reverse connection protection circuit
19
Circuit for long-term shelf test
20
Multi-channel cell voltage simultaneous input unit (from 1ch to 150ch)
Available for 5V to 600V.
21
Temperature sensors input unit
(Thermocouple, thermistor, semiconductor temperature sensor)
22
Current gain switching function
(2 standard ranges: one time gain and 10 times gain)
23
Thermostat chamber temperature remote control function
24
A wide variety of charge-discharge test setting function, monitor function and
analysis function.
25
3-layered file management system
(File management of test condition settings and test results)
26
Support SOC given test modes for lifetime tests.
27
Equipped with a multi-channel simultaneous calibration function, which minimizes
the maintenance time.
Optional function
Module
batteries
Pack batteries
RC1 RC2 RC3 RC4 RC5 RC6 RC7 RC8
Real Cycler ｜ 10
6. Charge-discharge Test Condition Settings_1
Test condition settings
Test conditions can be set in 3 layers
All the three layers can be displayed
in one screen
Test Condition Setting
Enable to set up to 5 patterns per test.
Enable to set the number of pattern
repetitions up to 9999 times.
Tree view of layers
End items can be set a specified
number of times under one mode.
The mode ends once any of the set
condition is reached “or” condition.
*Constant power control is controlled by software on the basis of
calculation control at every control
cycle.
3
2
Pattern condition setting
Enable to set up to 99 steps per pattern.
Enable to set the number of step
repetitions up to 9999 times.
1
Step Condition Setting
Enable to set up to 99 modes per step.
Test direction⇒
Layer
Test
3
Layer
Pattern 1
2
Layer
Step 1
Step 2
Mode 1 to 99
Mode 1 to 99
1
Up to Pattern 5
Up to Step 99
Mode 1 to 99
Up to Step 99
Mode 1 to 99
・・・・・・・・・・・・・・
Number of step repetitions =
Max 9999 times
*Cycle = Number of steps + Number of repetitions
Number of pattern repetitions = Max 9999 times
Step
Rest
Constant current
discharge
A
(Start)
Rest
Constant current
charge
・・・
Loop Control
B
(End)
・・・
You can set any two repetition (loop) points you want in a step. The loop
can be set up to 9999 times. The loop control enables you to test more
than 99 modes. You can set more than one cancel setting by setting the
predetermined number of times to loop and the end conditions at a jump
destination.
Loop between A and B
Real Cycler ｜ 11
6. Charge-discharge Test Condition Settings_2
Multi-channel and Multi-slot System
Test condition settings
1. Mode End
The setting items of the mode end depend on the end conditions
you set for each charge, discharge or rest mode. End conditions
can be set a specified number of times under one mode.
The mode ends once any of the set conditions is reached
(” or” condition).
2. Step End
Multiple End Conditions can be selected for each Step.
The following items can be selected as Step End Conditions.
Voltage Upper Limit, Current Upper Limit, Power Upper Limit,
Acc. Step Capacity, Acc. Step Energy, etc.
3. Pattern End
Multiple End Conditions can be selected for each Pattern.
The following items can be selected as Pattern End Conditions.
Voltage Upper Limit, Current Upper Limit, Power Upper Limit, etc.
4. Test Force Quit (abnormal stop)
One setting per Test Condition can be selected.
(common setting condition for Charge, Rest, and Discharge)
• Voltage Upper Limit Error setting
• Current Upper Limit Error setting
• Capacity Upper Limit Error setting
• Electrical Energy Upper Limit
Error setting
• Voltage Lower Limit Error setting
• Current Lower Limit Error setting
• Capacity Lower Limit Error setting
• Electrical Energy Lower Limit
Error setting
If any error is detected, the Test is stopped with Alarm notification
(both sound and display) by the system, and that error is recorded
in Alarm History.
Real Cycler ｜ 12
7. Charge-discharge Mode
Charge mode
CC charge mode
V/I
CC-CV charge mode
V/I
V
CP charge mode
V/I
Run
V
V
I
I
I
Time
Time
Time
Set Items
• Set current
• Sampling setting
(Time, ∆V, ∆I)
• Set voltage
• Set current
• Sampling setting
(Time, ∆V, ∆I)
• Set power
• Sampling setting
(Time, ∆V, ∆I)
End Items
• Time
• Voltage (Upper limit)
• Capacity
• Electric energy
• Time
• Current (Lower limit)
• Capacity
• Electric energy
• Time
• Voltage (Upper limit)
• Capacity
• Electric energy
CC discharge mode
CC-CV discharge mode
CP discharge mode
Discharge mode
V/I
V/I
V/I
Run
V
V
V
I
I
I
Time
Time
Time
Set Items
• Set current
• Sampling setting
(Time, ∆V, ∆I)
• Set voltage
• Set current
• Sampling setting
(Time, ∆V, ∆I)
• Set power
• Sampling setting
(Time, ∆V, ∆I)
End Items
• Time
• Voltage (Lower limit)
• Capacity
• Electric energy
• Time
• Current (Lower limit)
• Capacity
• Electric energy
• Time
• Voltage (Lower limit)
• Capacity
• Electric energy
Rest mode 1
Rest mode 2
Long-term uncontrolled mode
Main circuit
OFF
Main circuit
ON
Main circuit
OFF
Monitor circuit
ON
Monitor circuit
ON
Monitor circuit
OFF
Set Items
• Sampling setting
(Time, ∆V, ∆I)
• Sampling setting
(Time, ∆V, ∆I)
• Sampling setting
(Time, ∆V, ∆I)
End Items
• Time
• Voltage
• Temperature
• Time
• Voltage
• Temperature
• Time
• Voltage
• Temperature
Rest mode
Run
Real Cycler ｜ 13
8. RC Series Specification Table
RC1 series_D600 ( HF : Sophisticated type / SA : Accurate and sophisticated type )
5V-DCDC board type_D600mm
005012HF
005024HF
Maximum output voltage
005034HF
005060HF 005120HF/SA 005240HF/SA 005360HF/SA 005480HF/SA
Charge: from 0V to 5V / Discharge: from 0V to 5V
Maximum output current
12A
24A
34A
60A
120A
240A
360A
Number of channels/ DCDC board
10ch
5ch
4ch
2ch
1ch
1ch
1ch
1ch
Output voltage/ channel
60VA
120VA
240VA
300VA
600VA
1200VA
1800VA
2400VA
480A
Output voltage/ DCDC board
600VA
600VA
612VA
600VA
600VA
1200VA
1800VA
2400VA
Number of occupied DCDC boards
1board
1board
1board
1board
1board
2board
3board
4board
DCDC unit control method
Bidirectional self-excited forward isolation high-frequency switching power supply
Voltage output resolution
0.1mV
Voltage monitor resolution
0.1mV
Voltage output accuracy
±0.05%
Voltage monitor accuracy
±0.05%
Current output resolution
0.2mA
0.4mA
0.6mA
1.0mA
2.0mA
4.0mA
6.0mA
8.0mA
Current monitor resolution
0.2mA
0.4mA
0.6mA
1.0mA
2.0mA
4.0mA
6.0mA
8.0mA
Current output accuracy of HF series
±0.05%
Current monitor accuracy of HF series
±0.05%
Current output accuracy of SA series
ー
ー
ー
ー
±0.05%
±0.05%
±0.05%
±0.05%
Current monitor accuracy of SA series
ー
ー
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
Current output rise time (from 5% to 95%)
3msec
Current output fall time (from 95% to 5%)
3msec
Voltage output rise time (from 5% to 95%)
3msec
Voltage output fall time (from 95% to 5%)
3msec
Switching time from charge to discharge
3msec
Switching time from discharge to charge
3msec
Output gain switching
Gain1/Gain10
Two-phased switching (Second gain can be customized.)
Charge efficiency
85%
Discharge efficiency
85%
External dimensions
W46mm H150mm D600mm
25˚C±5˚C
Accuracy assurance environment
5KVA - ACDC case
Maximum output power of bidirectional ACDC converter
4800VA
ACDC unit control method
Bidirectional PFC system
Number of slots/ ACDC case
8slot
Storage number of subject DCDC boards/ ACDC case
8board
8board
7board
8board
8board
4board
2board
2board
Maximum number of channels in subject DCDC boards
80ch
40ch
28ch
16ch
8ch
4ch
2ch
2ch
Power factor of bidirectional converter
95%
Bidirectional converter efficiency
90%
Input voltage
Maximum power consumption
External dimensions
3øAC180V to 220V
6KVA
W580mm H176mm D645mm
Note 1: The current accuracy of HF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the HF series. Note 3: The specifications of HF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 14
8. RC Series Specification Table
RC1 series_D500 ( HF : Sophisticated type / SA : Accurate and sophisticated type )
5V-DCDC board type_D500mm
005012HF
005025HF
Maximum output voltage
005050HF 005100HF/SA 005200HF/SA 005300HF/SA 005400HF/SA 005500HF/SA
Charge: from 0V to 5V / Discharge: from 0V to 5V
Maximum output current
12A
24A
50A
100A
200A
300A
400A
Number of channels/ DCDC board
8ch
4ch
2ch
1ch
1ch
1ch
1ch
1ch
62.5VA
125VA
250VA
500VA
1000VA
1500VA
2000VA
2500VA
Output voltage/ channel
500A
Output voltage/ DCDC board
500VA
500VA
500VA
500VA
1000VA
1500VA
2000VA
2500VA
Number of occupied DCDC boards
1board
1board
1board
1board
2board
3board
4board
5board
DCDC unit control method
Bidirectional self-excited forward isolation high-frequency switching power supply
Voltage output resolution
0.1mV
Voltage monitor resolution
0.1mV
Voltage output accuracy
0.05%
Voltage monitor accuracy
0.05%
Current output resolution
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
0.5mA
8.0mA
10.0mA
Current monitor resolution
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
0.5mA
8.0mA
10.0mA
Current output accuracy of HF series
±0.05%
Current monitor accuracy of HF series
±0.05%
Current output accuracy of SA series
ー
ー
ー
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
Current monitor accuracy of SA series
ー
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
Current output rise time (from 5% to 95%)
3msec
Current output fall time (from 95% to 5%)
3msec
Voltage output rise time (from 5% to 95%)
3msec
Voltage output fall time (from 95% to 5%)
3msec
Switching time from charge to discharge
3msec
Switching time from discharge to charge
3msec
Output gain switching
Gain1/Gain10
Two-phased switching (Second gain can be customized.)
Charge efficiency
85%
Discharge efficiency
85%
External dimensions
W46mm H150mm D500mm
25˚C 5˚C
Accuracy assurance environment
5KVA - ACDC case
Maximum output power of bidirectional ACDC converter
4800VA
Bidirectional PFC system
ACDC unit control method
Number of slots/ ACDC case
8slot
Storage number of subject DCDC boards/ ACDC case
8board
8board
8board
8board
4board
2board
2board
1board
Maximum number of channels in subject DCDC boards
64ch
32ch
16ch
8ch
4ch
2ch
2ch
1ch
Power factor of bidirectional converter
95%
Bidirectional converter efficiency
90%
Input voltage
Maximum power consumption
External dimensions
3øAC180V to 220V
6KVA
W540mm H176mm D540mm
Note 1: The current accuracy of HF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the HF series. Note 3: The specifications of HF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 15
8. RC Series Specification Table
RC2 series_D600 ( NF : Standard type / SA : Accurate type )
5V-DCDC board type_D600mm
005003NF
005006NF
005012NF
Maximum output voltage
Maximum output current
005024NF
005034NF
005060NF 005120NF/SA 005240SA
005360SA
Charge: from 0V to 5V / Discharge: from 1.8V to 5V
3A
6A
12A
24A
34A
60A
120A
240A
Number of channels/ DCDC board
12ch
10ch
10ch
5ch
4ch
2ch
1ch
1ch
360A
1ch
Output voltage/ channel
15VA
30VA
60VA
120VA
153VA
300VA
600VA
1200VA
1800VA
Output voltage/ DCDC board
180VA
300VA
600VA
600VA
612VA
600VA
600VA
1200VA
1800VA
Number of occupied DCDC boards
1board
1board
1board
1board
1board
1board
1board
2board
3board
DCDC unit control method
Bidirectional isolated high-frequency switching power supply
Voltage output resolution
0.1mV
Voltage monitor resolution
0.1mV
Voltage output accuracy
0.05%
Voltage monitor accuracy
0.05%
Current output resolution
0.1mA
0.1mA
0.2mA
0.4mA
0.6mA
1.0mA
2.0mA
4.0mA
6.0mA
Current monitor resolution
0.1mA
0.1mA
0.2mA
0.4mA
0.6mA
1.0mA
2.0mA
4.0mA
6.0mA
Current output accuracy of NF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current monitor accuracy of NF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current output accuracy of SA series
ー
ー
ー
ー
ー
ー
±0.02%
±0.02%
±0.02%
Current monitor accuracy of SA series
ー
ー
ー
ー
ー
ー
±0.02%
±0.02%
±0.02%
Current output rise time (from 5% to 95%)
20msec
Current output fall time (from 95% to 5%)
20msec
Voltage output rise time (from 5% to 95%)
20msec
Voltage output fall time (from 95% to 5%)
20msec
Switching time from charge to discharge
50msec
Switching time from discharge to charge
50msec
Charge efficiency
80%
Discharge efficiency
External dimensions
75%
W36mm
W36mm
W46mm H130mm D600mm
25˚C 5˚C
Accuracy assurance environment
3KVA - ACDC case
3200VA
Maximum output power of bidirectional ACDC converter
Bidirectional simplified PFC system
ACDC unit control method
5slot
16slot
10slot
Storage number of subject DCDC boards/ ACDC case
16board
10board
5board
5board
5board
5board
5board
2board
1board
Maximum number of channels in subject DCDC boards
192ch
100ch
50ch
25ch
15ch
10ch
5ch
2ch
1ch
Number of slots/ ACDC case
85%
Power factor of bidirectional converter
95%
Bidirectional converter efficiency
3øAC180V to 220V
Input voltage
4KVA
Maximum power consumption
External dimensions
W750mm
W400mm H150mm D645mm
W550mm
2KVA - ACDC case
2000VA
Maximum output power of bidirectional ACDC converter
Bidirectional simplified PFC system
ACDC unit control method
3slot
12slot
6slot
Storage number of subject DCDC boards/ ACDC case
12board
6board
3board
3board
3board
3board
3board
1board
1board
Maximum number of channels in subject DCDC boards
144ch
60ch
30ch
15ch
12ch
6ch
3ch
1ch
1ch
Number of slots/ ACDC case
85%
Power factor of bidirectional converter
95%
Bidirectional converter efficiency
3øAC180V to 220V
Input voltage
3KVA
Maximum power consumption
External dimensions
W570mm
W350mm
W540mm H150mm D645mm
Note 1: The current accuracy of NF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the NF series. Note 3: The specifications of NF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 16
8. RC Series Specification Table
RC2 series_D500 ( NF : Standard type / SA : Accurate type )
5V-DCDC board type_D500mm
005003NF
005006NF
Maximum output voltage
005012NF
005025NF
005050NF 005100NF/SA 005200SA
005300SA
Charge: from 0V to 5V / Discharge: from 1.8V to 5V
Maximum output current
3A
6A
12A
25A
50A
100A
200A
Number of channels/ DCDC board
8ch
8ch
8ch
4ch
2ch
1ch
1ch
1ch
15VA
30VA
60VA
125VA
250VA
500VA
1000VA
1500VA
Output voltage/ channel
300A
Output voltage/ DCDC board
120VA
240VA
480VA
500VA
500VA
500VA
1000VA
1500VA
Number of occupied DCDC boards
1board
1board
1board
1board
1board
1board
2board
3board
DCDC unit control method
Bidirectional isolated high-frequency switching power supply
Voltage output resolution
0.1mV
Voltage monitor resolution
0.1mV
Voltage output accuracy
0.05%
Voltage monitor accuracy
0.05%
Current output resolution
0.1mA
0.1mA
0.3mA
0.5mA
1.0mA
2.0mA
4.0mA
5.0mA
Current monitor resolution
0.1mA
0.1mA
0.3mA
0.5mA
1.0mA
2.0mA
4.0mA
5.0mA
Current output accuracy of NF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current monitor accuracy of NF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current output accuracy of SA series
ー
ー
ー
ー
ー
±0.02%
±0.02%
±0.02%
Current monitor accuracy of SA series
ー
ー
ー
ー
ー
±0.02%
±0.02%
±0.02%
Current output rise time (from 5% to 95%)
20msec
Current output fall time (from 95% to 5%)
20msec
Voltage output rise time (from 5% to 95%)
20msec
Voltage output fall time (from 95% to 5%)
20msec
Switching time from charge to discharge
50msec
Switching time from discharge to charge
50msec
Charge efficiency
80%
Discharge efficiency
External dimensions
75%
W36mm
W46mm H130mm D500mm
W36mm
25˚C 5˚C
Accuracy assurance environment
3KVA - ACDC case
Maximum output power of bidirectional ACDC converter
ー
ー
3200VA
Bidirectional simplified PFC system
ACDC unit control method
Number of slots/ ACDC case
ー
ー
Storage number of subject DCDC boards/ ACDC case
ー
ー
6board
6board
6board
Maximum number of channels in subject DCDC boards
ー
ー
48ch
24ch
12ch
Power factor of bidirectional converter
ー
ー
Bidirectional converter efficiency
ー
ー
95%
Input voltage
ー
ー
3øAC180V to 220V
Maximum power consumption
ー
ー
4KVA
External dimensions
ー
ー
W400mm H150mm D540mm
6slot
6board
3board
2board
6ch
3ch
2ch
85%
2KVA - ACDC case
2000VA
Maximum output power of bidirectional ACDC converter
Bidirectional simplified PFC system
ACDC unit control method
16slot
8slot
Storage number of subject DCDC boards/ ACDC case
16board
8board
4board
4board
4board
4board
2board
1board
Maximum number of channels in subject DCDC boards
128ch
64ch
32ch
16ch
8ch
4ch
2ch
1ch
Number of slots/ ACDC case
85%
Power factor of bidirectional converter
95%
Bidirectional converter efficiency
3øAC180V to 220V
Input voltage
3KVA
Maximum power consumption
External dimensions
4slot
D640mm
D640mm
W370mm H150mm D540mm
Note 1: The current accuracy of NF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the NF series. Note 3: The specifications of NF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 17
8. RC Series Specification Table
RC3 series_D500 ( NF : Standard type )
5V-DCDC board type_D500mm
Maximum output voltage
Maximum output current
050010NF
050100NF
051000NF
Charge: from 0V to 5V / Discharge: from 0.5V to 5V
10mA
Number of channels/ DCDC board
100mA
1000mA
16ch
Output voltage/ channel
0.05VA
0.5VA
60VA
Output voltage/ DCDC board
1.6VA
16VA
480VA
Number of occupied DCDC boards
DCDC unit control method
1board
Dropper power supply (Linear type Power Supply)
Voltage output accuracy
±0.05%
Voltage monitor accuracy
±0.05%
Current output rise time (from 5% to 95%)
20msec
Current output fall time (from 95% to 5%)
20msec
Voltage output rise time (from 5% to 95%)
20msec
Voltage output fall time (from 95% to 5%)
20msec
Switching time from charge to discharge
50msec
Switching time from discharge to charge
50msec
Charge efficiency
50%
Discharge efficiency
0%
External dimensions
W36mm H130mm D500mm
Accuracy assurance environment
25˚C 5˚C
1KVA - ACDC case
Maximum output power of ACDC converter
ACDC unit control method
Number of slots/ ACDC case
650VA
Simplified PFC system
16slot
Storage number of subject DCDC boards/ ACDC case
16board
Maximum number of channels in subject DCDC boards
256ch
Power factor of ACDC converter
ACDC converter efficiency
Input voltage
Maximum power consumption
External dimensions
85%
95%
180V to 220V
1KVA
W600mm H150mm D550mm
Note 1: The current accuracy in this specification table indicates the accuracy of gain 1. Note 2: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 3: The maximum
output power of DC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 4: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition:
2m length cable) Note 5: The efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 18
8. RC Series Specification Table
RC4 series_D600 ( HF : Sophisticated type / SA : Accurate and sophisticated type )
50V-DCDC board type_D600mm
050030HF
050060HF 050120HF/SA 050240HF/SA 050360HF/SA 050480SA
Maximum output voltage
050600SA
Charge: from 0V to 50V / Discharge: from 0V to 50V
Maximum output current
30A
60A
120A
240A
360A
480A
Number of channels/ DCDC board
4ch
2ch
1ch
1ch
1ch
1ch
1ch
Output voltage/ channel
1250VA
2500VA
5000VA
10000VA
15000VA
20000VA
25000VA
Output voltage/ DCDC board
5000VA
5000VA
5000VA
10000VA
15000VA
20000VA
25000VA
Number of occupied DCDC boards
1board
1board
1board
2board
3board
4board
5board
4.0mV
5.0mV
10.0mV
Voltage output resolution
Voltage monitor resolution
600A
1.0mV
0.5mV
1.0mV
2.0mV
3.0mV
Voltage output accuracy
±0.05%
Voltage monitor accuracy
±0.05%
Current output resolution
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
8.0mA
10.0mA
Current monitor resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
Current output accuracy of HF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current monitor accuracy of HF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current output accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
Current monitor accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
15KVA
20KVA
25KVA
4unit
5unit
Current output rise time (from 5% to 95%)
3msec
Current output fall time (from 95% to 5%)
3msec
Voltage output rise time (from 5% to 95%)
3msec
Voltage output fall time (from 95% to 5%)
3msec
Switching time from charge to discharge
3msec
Switching time from discharge to charge
3msec
Charge efficiency
85%
Discharge efficiency
85%
25˚C±5˚C
Accuracy assurance environment
5KVA - ACDC converter unit
Maximum output power of ACDC converter
5KVA
5KVA
5KVA
1unit
Maximum storage numbers of DCDC units/ ACDC converter
Required unit quantity
Power factor of bidirectional converter
Bidirectional converter efficiency
Input voltage
Maximum power consumption
External dimensions
10KVA
Bidirectional PFC system
ACDC unit control method
1unit
1unit
1unit
2unit
3unit
95%
90%
3øAC180V to 220V
5KVA
W540mm H176mm D645mm
Note 1: The current accuracy of HF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the HF series. Note 3: The specifications of HF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 19
8. RC Series Specification Table
RC5 series_D600 ( HF : Sophisticated type / SA : Accurate and sophisticated type )
60V-DCDC board type_D600mm
060025HF
060050HF 060100HF/SA 060200HF/SA 060300HF/SA 060400SA
Maximum output voltage
060500SA
Charge: from 0V to 60V / Discharge: from 0V to 60V
Maximum output current
25A
50A
100A
200A
300A
400A
Number of channels/ DCDC board
4ch
2ch
1ch
1ch
1ch
1ch
1ch
Output voltage/ channel
1250VA
2500VA
5000VA
10000VA
15000VA
20000VA
25000VA
Output voltage/ DCDC board
5000VA
5000VA
5000VA
10000VA
15000VA
20000VA
25000VA
Number of occupied DCDC boards
1board
1board
1board
2board
3board
4board
5board
Voltage output resolution
500A
1.0mV
Voltage monitor resolution
1.0mV
Voltage output accuracy
±0.05%
Voltage monitor accuracy
±0.05%
Current output resolution
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
8.0mA
10.0mA
Current monitor resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
Current output accuracy of HF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current monitor accuracy of HF series
±0.05%
±0.05%
±0.05%
±0.05%
±0.05%
ー
ー
Current output accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
Current monitor accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
15KVA
20KVA
25KVA
4unit
5unit
Current output rise time (from 5% to 95%)
3msec
Current output fall time (from 95% to 5%)
3msec
Voltage output rise time (from 5% to 95%)
3msec
Voltage output fall time (from 95% to 5%)
3msec
Switching time from charge to discharge
3msec
Switching time from discharge to charge
3msec
Charge efficiency
85%
Discharge efficiency
85%
25˚C±5˚C
Accuracy assurance environment
5KVA - ACDC converter unit
Maximum output power of ACDC converter
5KVA
5KVA
5KVA
1unit
Maximum storage numbers of DCDC units/ ACDC converter
Required unit quantity
Power factor of bidirectional converter
Bidirectional converter efficiency
Input voltage
Maximum power consumption
External dimensions
10KVA
Bidirectional PFC system
ACDC unit control method
1unit
1unit
1unit
2unit
3unit
95%
90%
3øAC180V to 220V
5KVA
W540mm H176mm D600mm
Note 1: The current accuracy of HF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the HF series. Note 3: The specifications of HF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 20
8. RC Series Specification Table
RC6 series ( HF : Sophisticated type / SA : Accurate and sophisticated type )
250V board type
250008HF
Maximum output voltage
250016HF 250050HF/SA 250100HF/SA 250200HF/SA 250300HF/SA 250500HF/SA
Charge: from 0V to 250V / Discharge: from 0V to 250V
Nominal output power
8A
16A
50A
100A
200A
300A
500A
Maximum output current (Rated power output range)
10A
20A
60A
120A
240A
360A
600A
Short-term maximum output current
12A
24A
72A
144A
288A
432A
720A
Short-term output time
10min
Number of channels/ DCDC board
Output voltage/ channel
Output voltage/ DCDC board
Number of occupied DCDC boards
6ch
3ch
1ch
1ch
1ch
1ch
1ch
2KVA
4KVA
12.5KVA
25KVA
50KVA
75KVA
125KVA
12.5KVA
12.5KVA
12.5KVA
25KVA
50KVA
75KVA
125KVA
1boad
1boad
1boad
2boad
4boad
6boad
10boad
Voltage output resolution
10.0mV
Voltage monitor resolution
10.0mV
Voltage output accuracy
±0.05%
Voltage monitor accuracy
±0.05%
Current output resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
Current monitor resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
Current output accuracy of HF series
±0.05%
Current monitor accuracy of HF series
±0.05%
Current output accuracy of SA series
ー
ー
±0.02%
Current monitor accuracy of SA series
ー
ー
±0.02%
Current output rise time
3msec
(from 5% to 95%)
Current output fall time (from 95% to 5%)
3msec
Switching time from charge to discharge
3msec
Switching time from discharge to charge
3msec
Power factor
95%
Efficiency
85%
Input voltage
Maximum power consumption
Accuracy assurance environment
3øAC180V to 220V±10% / 1øAC180V to 220V±10%
2.5KVA
5KVA
15KVA
30KVA
60KVA
90KVA
150KVA
25˚C±5˚C
Note 1: The current accuracy of HF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the HF series. Note 3: The specifications of HF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 21
8. RC Series Specification Table
RC7 series ( HF : Sophisticated type / SA : Accurate and sophisticated type )
500V board type
500004HF
500008HF 500025HF/SA 500050HF/SA 500100HF/SA 500200HF/SA 500300HF/SA 500500HF/SA
Maximum output voltage
Charge: from 0V to 500V / Discharge: from 0V to 500V
Nominal output power
4A
8A
25A
50A
100A
200A
300A
500A
Maximum output current (Rated power output range)
5A
10A
30A
60A
120A
240A
360A
600A
Short-term maximum output current
6A
12A
36A
72A
144A
288A
432A
720A
Short-term output time
10min
Number of channels/ DCDC board
Output voltage/ channel
Output voltage/ DCDC board
Number of occupied DCDC boards
6ch
3ch
1ch
1ch
1ch
1ch
1ch
1ch
2KVA
4KVA
12.5KVA
25KVA
50KVA
100KVA
150KVA
250KVA
12.5KVA
12.5KVA
12.5KVA
25KVA
50KVA
100KVA
150KVA
250KVA
1boad
1boad
1boad
2boad
4boad
8boad
12boad
20boad
Voltage output resolution
10.0mV
Voltage monitor resolution
10.0mV
Voltage output accuracy
±0.05%
Voltage monitor accuracy
±0.05%
Current output resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
10.0mA
Current monitor resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
10.0mA
Current output accuracy of HF series
±0.05%
Current monitor accuracy of HF series
±0.05%
Current output accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
Current monitor accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
180KVA
300KVA
Current output rise time
3msec
(from 5% to 95%)
Current output fall time (from 95% to 5%)
3msec
Switching time from charge to discharge
3msec
Switching time from discharge to charge
3msec
Power factor
95%
Efficiency
85%
Input voltage
Maximum power consumption
Accuracy assurance environment
3øAC180V to 220V±10% / 1øAC180V to 220V±10%
2.5KVA
5KVA
15KVA
30KVA
60KVA
120KVA
25˚C±5˚C
Note 1: The current accuracy of HF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the HF series. Note 3: The specifications of HF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 22
8. RC Series Specification Table
RC8 series ( HF : Sophisticated type / SA : Accurate and sophisticated type )
600V board type
600003HF
600006HF 600020HF/SA 600040HF/SA 600100HF/SA 600200HF/SA 600300HF/SA 600500HF/SA
Maximum output voltage
Nominal output power
Charge: from 0V to 600V / Discharge: from 0V to 600V
3.5A
7A
20A
40A
80A
160A
240A
320A
Maximum output current (Rated power output range)
5A
10A
30A
60A
100A
200A
300A
400A
Short-term maximum output current
6A
12A
36A
72A
144A
288A
432A
720A
Short-term output time
10min
Number of channels/ DCDC board
Output voltage/ channel
Output voltage/ DCDC board
Number of occupied DCDC boards
6ch
3ch
1ch
1ch
1ch
1ch
1ch
1ch
2KVA
4KVA
12.5KVA
25KVA
50KVA
100KVA
150KVA
250KVA
12.5KVA
12.5KVA
12.5KVA
25KVA
50KVA
100KVA
150KVA
250KVA
1boad
1boad
1boad
2boad
4boad
8boad
12boad
20boad
Voltage output resolution
10.0mV
Voltage monitor resolution
10.0mV
Voltage output accuracy
±0.05%
Voltage monitor accuracy
±0.05%
Current output resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
10.0mA
Current monitor resolution
0.1mA
0.2mA
0.5mA
1.0mA
2.0mA
4.0mA
6.0mA
10.0mA
Current output accuracy of HF series
±0.05%
Current monitor accuracy of HF series
±0.05%
Current output accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
Current monitor accuracy of SA series
ー
ー
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
±0.02%
180KVA
300KVA
Current output rise time
3msec
(from 5% to 95%)
Current output fall time (from 95% to 5%)
3msec
Switching time from charge to discharge
3msec
Switching time from discharge to charge
3msec
Power factor
95%
Efficiency
85%
Input voltage
Maximum power consumption
Accuracy assurance environment
3øAC180V to 220V±10% / 1øAC180V to 220V±10%
2.5KVA
5KVA
15KVA
30KVA
60KVA
120KVA
25˚C±5˚C
Note 1: The current accuracy of HF series and SA series are different. Note 2: If not otherwise specified, the specifications above are describing the HF series. Note 3: The specifications of HF series and SA series are
the same except their current accuracy. Note 4: SA series need efficient current sensors additionally. Note 5: The external dimensions of SA series do not include those of current sensor. Note 6: The current accuracy
in this specification table indicates the accuracy of gain 1. Note 7: The current accuracy in the above table does not include the ripple fluctuations of output current. Note 8: The maximum output power of DC/DC units
indicates the output power of battery end. (Precondition: 2m length cable) Note 9: The maximum output power of AC/DC units indicates the output power of battery end. (Precondition: 2m length cable) Note 10: The
efficiencies of the AC/DC units and the DC/DC units are not the guaranteed values as they are subject to change depending on the length of load cables or other related conditions.
Real Cycler ｜ 23
www.softenergy-controls.co.jp
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