Special Edition 2011 Spring
Nipron Wave
●Sales Div. 1-3-30 Nishinagasu-cho, Amagasaki-shi
Hyogo, JAPAN 660-0805
TEL:+81-6-6487-0605 FAX +81-6-6487-2212
URL:http://www.nipron.com/
Special Edition 2011 Spring
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c 2011 Nipron Co., Ltd.
■Do not copy. Copyright ○
■Do not use our products for special purposes including nuclear power, airplanes, military, space projects,
and anything that directly involves human life.
■Company names, product names, and logos in the catalog are trademarks of each company or registered trademarks.
■Specifications, design, and prices in the catalog are subject to change without prior notice.
■When using a product, please request for a product specifications and make sure to check all the items for proper use.
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Power failure sensor
/Back-up operation during blackout
Feature6 Feature8
Feature6 Feature8
As this unit works at ambient
temperature of 50 deg C with
100% load factor, high power
feeding is available even at
high temperature environment.
Blackout detection signal
GPSA-600 series is equipped with blackout detection signal. Cost to
produce detection unit can be eliminated.
Series:
GPSA-600-24P-TP
Signal
Blackout detection signal
Detection level
AC 80V or less
Continuous 600W
Peak 1440W
Detection delay time
20 to 40ms
Output
Open collector
12VSB
Blackout/Low voltage
sensor level
CR Time constant
4mA max
Feature3 3 units in parallel operation
Peak power gives 240% of rated power for 5 seconds, and more at
AC200V input.
Rating
Peak Max
1200W (AC100V)
1440W (AC200V)
600W
GPSA series has two sets of over
current protection (OCP1, OCP2) best for motor rating
GPSA has two sets of over current protection of 5 sec. timer shutdown
and hold down, best for induction motor load.
Output Voltage Vo
OCP1(1.05 Io)
OCP2(2.5 Io)
GPSA-600:OCP2≧1440W
Load current Io
Set in
5sec. Timer
Recover
Time
5sec. Timer
5sec. Timer
After 5 sec.
5sec. Timer
If the output current exceeds OCP2, the output voltage will start to go down
and then shut off, provided such condition continues more than 300ms.
If the output current exceeds OCP1, the 5 sec. timer will set in and then
reset if the load current decrease less than OCP1 within 5 second. If not, the
output power will shut off.
In order to reset the power supply after being shut off, remove AC power for 10
second and turn on again. Any factor that causes over current conditions more than
5 sec. must be fixed.
In case of a repetitive pulse load within OCP2 point, the actual output
current calculated by root-mean-square value shall be less than 100% of the
rated current.
The GPSA series, however, has a safety design feature such as internal
over heat protection that prevents its damage from a miss use due to over
powered pulse loads.
In case of power shortage, output power can be increased with
units in parallel connection. output voltage and current of each unit
come to be balanced to deliver stable power by
connecting output balancing signal
(VB) and output current balancing
V+terminal
V-terminal
signal (CB).
Output current at parallel operation
must be “rated current times CHs
connected times 90% of each
output CH” or less.
VB
CB
VB
CB
What’s ErP directive?
This is one of environmental standards on products that EU is
expanding. Once it used to be called EuP directive, now the title has
been changed to ErP directive. Intend to assigned class such as
household electrical appliance and office electrical equipment.
There are some requirements such as environmental design,and
affix CE mark. Issued on Jan 7th, 2010.
Feature5 High efficiency
High efficiency 88.8% even with
at 240VAC input and rated load.
This is the power supply fitting
with the times which can reduce
CO2 emission and save energy.
25A 600W
50A 1200W
60A 1440W
GPSA-600-48P
+48V
12.5A 600W
25A 1200W
30A 1440W
Common spec
Common spec
(Ni-HM battery)
[BS14*-H24/2.5L]
Remote ON/OFF function equipped
Output ON/OFF control is also available
by Remote ON/OFF signal PS_ON.
Fan monitor signal equipped
Load factor 50% Load factor 100%
AC100V
(Output 300W)
(Output 600W)
85.9%
85.5%
AC200V
87.7%
88.4%
AC240V
87.7%
88.8%
85%
80%
AC 100V
AC 200V
AC 240V
75%
70%
100W
200W
300W
400W 500W 600W 700W
Output Power
Communicatio
n connector
with battery
package
Automatic
shut down
possible
by NSP Pro2
(Software)
Variable resistor
for output voltage
DC+
DC+
DC-
Various
Input/Output
signal
connector
DC-
LED equipped
for visual
check (turn-on
at normal
operation)
FG
AC(N)
AC(L)
Battery
package
connection
connectors
(can be used
as output
connector
when battery
package
is not
connected.)
(PS_ON#,PWR_OK,
FAN_M, AC
FAIL,BATT LOW)
Parallel
operation signal
connector
GPSA-600
Fan monitoring signals (FAN_M1,FAN_M2) of the
two fans installed are available.Those signals allow
you to monitor fan speed.
PWR_OK signal equipped
Application example
Setting available time
[BS14A-H24/2.5L]: 1min./5min./10min./15min./20min./25min./30min./35min.
[BS14P-H24/2.5L]: 5sec./10sec./30sec./1min./2min./3min./5min./10min.
As with GPSA-360/750, Both side dip-coating available
PCB coating (whole-dip coating)
Protection of discrete components such as diodes against dusts by tubing
Battery package
have been implemented.
Here's the solution! By whole-dip coating, as even double brushing cannot
cover all area. It has brought continuous stable operation even under
harsh neutral salt spray test!
(Brush-coating proved poor operation to stop in several minutes.)
Backup time:(When used one unit)
Model: BS14A-H24/2.5L
Battery: Ni-MH battery
Output: 24V 170W
(Peak 240W 10s max.)
Backup time: See the graph on the right
40
30
20
10
0
70
90
110
130
150
170
Load (W)
* Backup time is just a guideline at first use, not guaranteed.
12V standby output 0.5A equipped
Referential picture
Both side dip-corting
This standby 12VSB supplies 0.3A.
For example, we have track record such as
24V for motor drive and 12VSB as power
supply used for interface of LAN and USB for
finance terminal equipments.
Under harsh neutral salt spray test
(GPSA-750)
12V standby output
+12VSB(Auxiliary power supply)
SEMI F47 standard compliant
0.5A
Compliant to the regulation for supply voltage drop prescribed in SEMI
standard. (Optional. Please contact us.)
*1 0.3A max at backup operation
Specifications
Model
90%
0.5A 6W (At backup operation 0.3A 3.6W)
Operation stability of the system will be
improved by line drop correction.
Settable discharge stop time with DIP switch.
Series name
(Series name) 95%
Peak(5s)AC100V Peak(5s)AC200V
Continuous
LED lighting pattern changes when the BATT is charging or
discharging.
Feature7
Power consumption at "Off Mode"
Over 1.00W (0.50W)* power consumption of equipments at off mode
is prohibited.
Power consumption at "Standby Mode"
Over 1.00W (0.50W)* power consumption of equipments that only
input reactivate function, or input reactivate function, only indicate
reactivate functions available at standby mode is prohibited.
*Inside of ( ) is effective from Jan 17th, 2013.
*Built-in types are excepted for ErP directive.
60
+24V
Complying with ErP directive
Contribute to reduction of CO2 emission and saving electric bills by
control standby power 1W max.
50
Output voltage
Feature4 Silence
1
VB
CB
VB
CB
40
"H"signal is delivered when the output is normal.
(Referential picture)
Feature2 GPSA series controls fan speed by temperature detection inside the
power supply. Thus, the fan speed slows at light load inviting silence.
VB
CB
VB
CB
30
Model
Variable resistor for output voltage
(Harness is optional)
Time (min.)
High peak power
Efficiency
Feature1
20
Other features
Battery backup operation during blackout is possible with the battery
pack (BS14*-H24/2.5L) connected.
Battery pack
Switches from AC operation to DC battery operation
without instantaneous stop.
Max. cont. output 170W, Peak output 240W (within 10s)
Parallel battery backup operation is possible
with current balance circuit equipped.
Battery low signal equipped.
Battery discharge will be stop by the timer stop
with DIP switch or input of remote signal to GPSA.
Automatic shut down can be done with NSP Pro2.
10
GPSA-600-24P
22kΩ typ
Blackout detection signal equipped
/Backup operation during blackout available
Continuous 600W brand new model is here in single output power supply GPSA series equipped with high cost performance and
multiple functions. Needless to say about high peak load response and 12V equipped with standby, it has brought more powerful
functions such as low standby power support, triple units in parallel operation, etc. in comparison with existing models.
60
Ambient temperature [deg C]
AC FAIL
AC Fail signal
80
0
22kΩ typ
Detection delay time
20-40ms
Ambient temperature and output derating
*Value may be changed according to situation as under safety standard application
100
System side
30Vmax
GPSA
Return level
100% load factor
with ambient temperature of 50 deg C
Load factor(%)
Brand new 600W model
in single output power supply GPSA series!
GPSA-600
GPSA-360
Continuous
Peak (5s) AC100V Peak (5s) AC200V
Continuous
GPSA-750
Peak (5s) AC100V Peak (5s) AC200V
Continuous
Peak (5s) AC100V Peak (5s) AC200V
12
+12V
30A 360W
40A 480W
40A 480W
--- ---
--- ---
--- ---
56A 672W
70A 840W
12P
+12V
--- ---
--- ---
--- ---
50A 600W
80A 960W
100A 1200W
--- ---
--- ---
--- ---
24
+24V
15A 360W
20.8A 499.2W
25A 600W
--- ---
--- ---
--- ---
30A 720W
37.5A 900W
50A 1200W
24P
+24V
36P
+36V
48P
+48V
30A 720W
35A 840W
15A 360W
Under design reviewing to increase
20A 720W
23.3A 840W
10A 360W
the power up to 500W
15A 720W
17.5A 840W
7.5A 360W
Common spec
+12VSB
0.3A 3.6W
Size (W×H×D mm)
41×128×230
(Exclusive fan guard (+5mm),
exclusive terminal block (+15mm))
25A 600W
50A 1200W
60A 1440W
16.6A 600W
33.3A 1200W
40A 1440W
12.5A 600W
25A 1200W
30A 1440W
40A 960W
80A 1920W
30A 720W
Under re-designing to increase
26.7A 960W
53.3A 1920W
20A 720W
the power up to 1000W
20A 960W
40A 1920W
15A 720W
0.5A 6W (At backup operation 0.3A 3.6W)
61×128×240
(Exclusive fan guard (+5mm),
exclusive terminal block (+15mm))
80A 960W
0.3A 3.6W
82×128×235
(Exclusive fan guard (+5mm),
exclusive terminal block (+20mm))
* Complying to medical standard "mGPSA series" are available for 12V, 24V output. (mGPSA-750 is scheduled to be acquired.) * With volume adjusting, 36V output can be used as 30V output power supply, 48V output power supply can be used as 42V power supply.
* Posted under development. Please contact us for more information.
2
Long lifetime
OZ series brings long lifetime due to efficiency-oriented design and
longer-life electrolytic capacitors.
Also, OZ-015 & 030 series covers the operating temperature up to 65 deg C.
Following shows an example in comparison with competitor's equivalent.
Lifetime expectancy comparison
Comparison of Electrical bill and CO2 emission
OZ series has realized high efficiency by synchronous
rectifying circuit. (Some models are excepted)
Synchronous rectification
High efficiency
Ex. OZ-030-5
Competitor's equivalent (Diode-rectification)
Electrical bill and CO2 emission can be reduced with high efficiency OZ
series installed. Designers at customers work hard every year to
achieve CO2 reduction target of ISO14000 (environment) for certificate
renewal. End users are happy with Nipron power supplies because
they can reduce considerable amount of CO2 and electricity cost in a
year even by 5% efficiency improvement.
Synchronous
rectification
signal
Current 6A
Voltage drop 0.06V
(at 10mΩof FET's ON resistance)
Power loss = 0.5V x 6A = 3W
Large heat in Diodes
Power loss = 0.06V x 6A = 0.36W
Poor efficiency Much less heat in FET Higher efficiency
FET for
synchronous
rectification
Input voltage Low
Secondary circuit
Nipron
(OZ-030-5)
Competitor's
equiv. (1)
Competitor's
equiv. (2)
The higher input voltage is,
the shorter the period of current
A is.
High
Current A
5V
5V
5V
30W
30W
30W
Input voltage
Efficiency
Electric bill*
AC100V
6,441yen
AC200V
81.6%
81.4%
AC100V
77.9%
6,747yen
AC200V
75.2%
6,989yen
AC100V
74.1%
7,093yen
AC200V
76.5%
6,870yen
6,457yen
*At 30W output, continuous 24 hours/day operation 20 yen/kWh conversion
Electric bill and CO2 emission comparison (at 30W output, continuous 24 hour/day operation)
Current B
Load
Annual electrical bill: approx. 306 yen at AC 100V/approx. 532 yen at AC 200V
CO2 emission: approx. 5.8kg at AC 100V/approx/ 10.1kg at AC 200V !
Power loss in half-wave synchronous rectification system
* Synchronous rectification only when current B flows
The higher input voltage is, the higher the efficiency is !
OZ-015/060 series can achieve one rank higher power
compared with the competitor's equivalents in terms of form
factor (bottom) size. Also, OZ-015 is smaller compared with
the competitor's equivalents in term of output power.
Comparing with the same size
(bottom) of the competitor's...
Comparing with the
same power of the
competitor's...
3
OZ-030-5 (actual data) VS Competitor's equiv.
20
18
16
14
12
10
8
6
4
2
0
OZ-030-5
Competitor's equiv. (1)
35
Higher power!
Smaller!
Annual electrical bill: approx. 652 yen at AC 100V/approx. 414 yen at AC 200V
CO2 emission: approx. 12.3kg at AC 100V/approx/ 7.8kg at AC 200V !
*1 20 yen/kWh conversion *2 0.378kg CO2/kWh conversion
Double-sided PCBs with through-hole (safety)
Small power OZ series is also safety-oriented product
with double-sided PCBs with through-hole adopted.
(Competitor's products adopt mainly single-sided PCBs.)
Solder cracks at high voltage part is likely to invite fire.
With double-sided PCBs with through-hole is suitable for
industrial use, solder crack problems do not happen
even in lead-free process.
30
Output power[W]
Output power[W]
OZ-030-5
25
20
15
Competitor's equiv. (1)
Competitor's equiv. (2)
10
Installation B
35
30
OZ-030-5
25
20
Competitor's equiv. (1)
Competitor's equiv. (2)
15
10
5
5
0
40 45 50 55 60 65 70
Ambient temperature [deg C]
40 45 50 55 60 65 70
Ambient temperature [deg C]
OZ-060-5 VS Competitor's equiv.
40
45
50
55
OZ-060-5 (actual data) VS Competitor's equiv.
20
18
OZ-060-5
16
14
Competitor's equiv. (1)
12
10
8
6 Competitor's equiv. (2)
4
2
0
25
30
35
40
45
60
65
70
Measurement condition:
Installation A
Input voltage: 100V
(Standard)
Output power:42W
Input
connector
Output voltage: 5V
W/O chassis & cover
Installation direction:
standard (see the right.)
Installation A
70
60
OZ-060-5
50
40
30 Competitor's equiv. (1)
20
Competitor's equiv. (2)
OZ-060-5
60
50
40
30
Competitor's equiv. (1)
20 Competitor's equiv. (2)
10
10
0
Installation B
70
0
40 45 50 55 60 65 70
Ambient temperature [deg C]
40 45 50 55 60 65 70
Ambient temperature [deg C]
*1 OZ series has advantage in characteristics for other installation directions over competitor's.
*2 The above characteristics is given to 5V output type, but other outputs have the same advantage as well.
at natural air cooling and 40
deg C of ambient temp.,
lifetime expectancy 10 yrs
Low noise
OZ series, even single unit itself, meets VCCI Class B (conducted
emission/radiant noise). Applying external noise filter is not necessary.
Input voltage::100V
Output power:30W
Output voltage:5V
W/O chassis&cover
50
55
60
65
70
Note 1: Lifetime expectancy of competitor's (1) and (2) is calculated from their open data on the WEB.
Note 2: The lifetime expectancy is calculated with the constant 42W load. (In actual use, load derating is required at high temp.)
Note 3: Lifetime expectancy of competitor's (1) and (2) is calculated with constant 42W (70% load of OZ-060-5)
because they cannot output 60W (constant output of OZ-060-5).
Note 4: The lifetime expectancy is theoretical result, and it shall be 15 years max. when the material deterioration of the sealing part of
electrolytic capacitors are taken into account.
OZ-030-5
Competitor's equiv.
[dB uV]
100
80
Nipron contributes to global environment improvement by industrial
waste reduction driven by long life design policy (10 years and beyond).
[dB uV]
100
Peak mode
Class B QP (quasi-peak) line
Class B AV (average) line
60
40
40
20
20
1
10
[MHz]
Installation:Standard
Peak mode
Class B QP (quasi-peak) line
Class B AV (average) line
80
60
.15
.15
1
10
[MHz]
Measured at Hyogo Prefecture Institute of Technology
Products line-up
Model name Series name Series name Output voltage
OZ-015 Output current
Output power
3R3
+3.3V
3A
9.9W
5
+5V
3A
15W
12
+12V
1.3A
15.6W
15
+15V
1A
15W
24
+24V
0.7A
16.8W
50 x 28 x 105 (Board type)/57 x 35 x 125 (W/ chassis)/57 x 36 x 125 (W/ chassis and cover)
Nylon connector
6A
6A
2.5A
2A
1.3A
OZ-030 Output current
Output power
19.8W
30W
30W
30W
31.2W
Dimension (W x H x D) 55 x 28 x 133 (Board type)/65 x 35 x 163 (W/ chassis)/65 x 36 x 163 (W/ chassis and cover)
Input/Output terminal Nylon connector
12A
12A
5A
4A
2.5A
OZ-060 Output current
Output power
39.6W
60W
60W
60W
60W
Dimension (W x H x D) 55 x 32 x 195 (Board type)/65 x 41 x 225 (W/ chassis)/65 x 42 x 225 (W/ chassis and cover)
Input/Output terminal Nylon connector or European terminal
Common Input voltage AC85~264V (Worldwide input, PFC equipped)
Dimension (W x H x D)
Case of Solder crack
(in single-sided PCB)
35
0
Ambient temperature [deg C]
Input/Output terminal
Double-sided PCBs
with through-hole
16
OZ-015-5
14
12 Competitor's equiv. (2)
10
8
Competitor's equiv. (1)
6
4
2
0
40 45 50 55 60 65 70
Ambient temperature [deg C]
OZ-030-5 VS Competitor's equiv.
Installation A
Competitor's equiv. (2)
30
Installation B
16
OZ-015-5
14
12
Competitor's equiv. (2)
10
8
6 Competitor's equiv. (1)
4
2
0
40 45 50 55 60 65 70
Ambient temperature [deg C]
at natural air cooling and
45 deg C of ambient
temp., lifetime
expectancy 12 yrs and
usable up to65 deg C.
他社相当品①
25
Installation A
70
Measurement condition:
Installation A
Input voltage: 100V
(Standard)
Output power:30W
Output voltage: 5V Input connector
W/O chassis & cover
Installation direction:
standard (see the right.)
Input connector
Input connector
OZ-015-5 VS Competitor's equiv.
Output power[W]
65
Average power loss
Z-030-5 vs. Competitor's equivalent (2)
Synchronous
rectification
signal
60
Ambient temperature [deg C]
OZ-030-5 vs. Competitor's equivalent (1)
Power loss in Diode rectification system
55
OZ-030-5 vs. Competitor's equiv. efficiency comparison (Actual data)
Output voltage Power
Voltage drop 0.5V
50
Note 1: Lifetime expectancy of competitor's (1) and (2) is calculated from their open data on the WEB.
Note 2: The lifetime expectancy is calculated with the constant 30W load. (In actual use, load derating is required at high temp.)
Note 3: The lifetime expectancy is theoretical result, and it shall be 15 years max. when the material deterioration of the sealing part of
electrolytic capacitors are taken into account.
OZ-030 (Synchronous rectification of FET)
Current 6A
at natural air cooling and
40 deg C of ambient
temp., lifetime
expectancy 10 yrs and
usable up to65 deg C.
Note 1: Lifetime expectancy of competitor's (1) and (2) is calculated from their open data on the WEB.
Note 2: The lifetime expectancy is calculated with the constant 15 W load. (In actual use, load derating is required at high temp.)
Note 3: The lifetime expectancy is theoretical result, and it shall be 15 years max. when the material deterioration of the sealing part of
electrolytic capacitors are taken into account.
OZ series of general purpose AC/DC sw' power supply has brought higher efficiency compared with
competitor's equivalent, resulting in a lot of advantages, such as compact/high power, electricity saving, long
lifetime, etc. Besides, OZ series is safety-oriented product with double sided PCBs with through holes no
matter how small the power is. Many of competitor's equivalents are single sided PCBs. Double sided PCBs
with through holes eliminates solder cracks that is likely to occur in lead-free process so that you can use at
ease our products in industrial environment where equipments vibrate.
High efficiency
Measurement condition:
Installation A
Input voltage: 100V
(Standard)
Output power:15W
Input connector
Output voltage: 5V
W/O chassis & cover
Installation direction:
standard (see the right.)
Output power[W]
OZ-060 Series
Lifetime expectancy [yr]
OZ-030 Series
20
18
OZ-015-5
16
14
12
10
8 Competitor's equiv. (1)
6
4
Competitor's equiv. (2)
2
0
25
30
35
40
45
(Standard)
Output power - Ambient temp. characteristics
Ambient temperature [deg C]
Lifetime expectancy [yr]
OZ-015 Series
Continuous
Resource saving
15W/30W/60W
Long life
Safety-oriented OZ series
Lifetime expectancy [yr]
OZ-015-5 (actual data) VS Competitor's equiv.
OZ series performs excellent output characteristics even at high
temperature compared with competitor's equivalent (bottom
installation). The output power - ambient temp. comparison curves
of single open frame are shown below.
Installation A
Installation B
Output power[W]
15W/30W/60W OZ series
Excellent Output power v.s. Ambient temp. characteristics
Output power[W]
AC-DC
Switching power supply
Two types of input / output terminals available
For OZ-060, European terminals
as well as nylon connector for
input/output terminal are available.
Nylon connector European terminal
Choice from Chassis and Cover
Line up of 3 types,
board type, with chassis type,
and with chassis and cover type.
Board type
W/ chassis
W/ chassis and cover
Variable resistor for output voltage equipped as standard
Operation stability of the system will be improved by line drop correction.
(Adjust range: ±10%)
4
Other features
High power output
With improvement of heat radiating structure and heat reduction by high
efficiency, OZP series can output high power.
At 12V output 150W
CN2
CN6
CN2 CN6
CN6
(RC signal terminal)
Supportive fin
12 fins (PFC, main)
CN2
(Output diode)
OZP series
Low-cost type power supply with condensed function
In OZP series, synchronous rectification and innovative circuits
contribute to higher efficiency bringing in lower temp. rise and longer life
with long-life electrolytic capacitors (105 deg C 10000H.)
This is 3 times longer than competitor's ! (With condition written below, in house measurement)
Nipron achieves higher efficiency with long-life design (10 years min)
and contributes to improvement of the global environment by reduction
of industrial wastes.
Life expectancy comparison
Life expectancy [Yr]
16
8
6
4
2
Competitor's
equivalent
0
25
30
35
40
45
50
Ambient temperature[deg C]
55
60
Note 1: The life expectancy is calculated based on our standard.
Note 2: The life expectancy is based on continuous load of 150W. (In practice, load derating is required at high temperature.)
Note 3: The life expectancy is a lifetime in calculation. It shall be 15 years at the longest when degradation of materials used for
opening of electrolytic capacitors is taken into consideration.
High efficiency
Nipron OZP-170
Mode: Peak
[dB uV]
Competitor's equivalent
Mode: Peak
100
80
Class B AV (Average) level
Nipron
(OZP-170-12/15)
Competitor's
equivalent
12V
12V
150W
AC100V
AC200V
AC100V
80.0%
32,850yen
AC200V
83.3%
31,549yen
*1 Efficiency of competitor's equivalent is calculated from the data on their website.
*2 150W output, 24-hour continuous running, 20yen /kWh conversion
Comparison of Electric Bills & CO2 emission (24-hour continuous running)
Reduction! in a year: Electric bill approx.1,149yen(at AC100V) / approx. 955yen(at AC200V)
CO2 emission approx. 21.7kg(at AC100V) / approx.18kg(at AC200V) !
*1 20yen/kWh conversion
5
*2 0.378kgCO2/kWh conversion
Battery backup operation during blackout is possible for 24V output type
(OZP-***-24-*B*) with the battery pack (BS14*-H24/2.5L) connected.
- Switches from AC operation to DC battery operation
without instantaneous stop.
- Max. continuous output 170W, Peak output 240W (within 10s)
- Parallel battery backup operation is possible
with current balance circuit equipped.
- Battery low signal equipped.
Battery pack(Ni-HM battery)
- Battery discharge will be stop by the timer stop
[BS14*-H24/2.5L]
with DIP switch or input of remote signal to OZP.
Backup
time:
- Automatic shut down can be done with NSP Pro 2.
40
LED lighting pattern changes
when the BATT is charging or
discharging.
30
20
0
90
110 130
Load(W)
150
20
20
[MHz]
.15
1
10
[MHz]
This is an example in which
OZP-120-12/15 has been modified to
constant current source used as a power
supply for water clarification apparatus.
(Constant current hold-down point is
settable) Also, can be modified as a
charger for Load-acid battery.
16
14
12V Output model OZP-120-12/15-J02
12
10
8
6
4
2
0
0 1 2 3 4 5 6 7 8 9 10
Output current/(A)
170
setting available time
[BS14A-H24/2.5L]: 1min./5min./10min./15min./20min./25min./30min./35min.
[BS14P-H24/2.5L]: 5sec./10sec./30sec./1min./2min./3min./5min./10min.
10
Constant current hold-down curve
Constant current power supply
Operation at -20 deg C conditions
70
Settable discharge stop
time with DIP switch.
1
*The actual silicon locations may differ from the picture shown.
10
40
* Backup time is just a guideline at first use, not guaranteed.
This is an example of OZP series as an outside gate control P/S.
Because of outside operations, customer initially asked -20 deg C
special design, however, even standard OZP series has met -20 deg C
operations. (Power derating required (Load 75%))
Products line-up
Measured at Hyogo Prefecture Institute of Technology
Radiation noise
[dB(uV/m)]
Nipron OZP-170
[dB(uV/m)]
Series name Output voltage
Over the limit
No external filter is required for OZP-170
Even Open Frame type meets Class B.
Standard: Class B
[MHz]
[MHz]
Measured at Mie Prefecture Industrial Research Institute
Double-sided PCBs with through-hole (Safety)
Solder crack at high voltage section is likely to
burn. Double-sided PCBs with through-hole is
the solution for solder crack in industrial use.
Competitor's equivalents are, in many case,
single-sided PCBs.
Double-sided PCBs
Solder crack
in single-sided PCB
24
48
12/15(Output voltage switching )
30/36(Output voltage switching)
+12V
+15V
+24V
+30V
+36V
+48V
OZP-120
10A
8A
5A
4A
3.4A
2.5A
Natural
air cooling 120W
120W
120W
120W 122.4W 120W
Output
12.5A
10A
6.3A
5A
4.2A
3.2A
Forced
current/ air cooling 150W
150W 151.2W 150W 151.2W 153.6W
voltage Peak
15A
12A
9A
7.2A
6A
4.5A
(10s)
180W
180W
216W
216W
216W
216W
Dimension(W x H x D) 73 x 35 x 180 (board type)/83 x 43 x 210 (w/ chassis)/83 x 45 x 210 (w/ chassis and cover)
14A
11.2A
7A
-
-
-
Natural
OZP-170
air cooling
-
-
-
168W
168W
168W
Output
17.5A
14A
8.8A
-
-
-
current/ airForced
cooling 210W
210W 211.2W
-
-
-
voltage Peak 22.5A
18A
12.5A
-
-
-
(10s)
270W
270W
300W
-
-
-
Dimension (W x H x D) 73 x 40 x 220 (board type)/83 x 49 x 252 (w/ chassis)/83 x 51 x 252 (w/ chassis and cover)
AC85V~264V (Worldwide input, PFC equipped)
Common Input voltage
Model name (Series name)-
Competitor's equivalent
Electricity expense
Efficiency(*1) (year)(*2)
82.9% 31,701yen
85.9% 30,594yen
Backup Operation during blackout
40
Standard: ClassB
150W
- AC FAIL
60
OZP-170-12/15 VS Competitor's equivalent
Output voltage Output power Input voltage
Detection delay time
20~50ms
(Harness is optional)
Class B QP (Quasi peak) level
Class B QP (Quasi peak) level
Class B AV (Average) level
Application example
It is a must to buy the power supply that uses double-sided through
hole PC board for applications such as medical devises that equip
moving arms or vibrators. In addition, large or heavy parts should be
reinforced by silicone as anti-shock and vibration.
Nipron has anti-shock and vibration products
Power supply
available, and accepts special treatment.
for MRI,CT
+AC FAIL
60
.15
20
Installation direction:
Standard
(See the right pic.)
100
80
OZP
3mA max
30Vdc max
AC Fail signal
Conducted emission
Input connector
Natural air cooling
10 yrs of life expectancy
at ambient temp. 35 deg C
10
Return level
Capacitor Package
(inside picture)
"BS13A-EC400/422F"
Capacitor package protects the system from
instantaneous power failure.(Only for OZP-170 series)
Anti-50G available !
System side
Blackout/Low voltage
sensor level
Variable range
12/30/48V Output: ±10%
15V Output: -5%,+10%
24V Output: -5%,+20%
36V Output: -10%,+15%
Corresponds to the capacitor package
as for instantaneous power failure measure (Optional)
Output
Open collector
CR Time constant
VCCI Class B (Conducted emission/Radiation) easily passes
without external noise filters. A big customer who implemented
OZP-170 says, "We usually get into trouble with noises in
developing systems. It would take us 6 months at a worst case
spending valuable times of engineers in vain." "However,
thanks to OZP-170-24 and -12 power supply, an immediate
effect and time saving was brought to us without external
Measurement condition
noise filters, resulting in cost saving as
Direction A
Input: 200V
(Standard)
well."This encourages us, thank you.
Output power: 150W
Output voltage: 12V
Also, low leak current 0.1mA typ (at AC 100V). W/O Chassis,Cover Input connector
[dB uV]
(See the right pic.)
12
Direction C
Input voltage: 100V
Output power: 150W
Output voltage: 12V
Installation direction:
laterally-facing
W/O Chassis,Cover
OZP-170-12/15
14
Signal
Detection level Detection delay time
20~50ms
Blackout detection signal AC 80V typ
Low Noise
Long life (3 times longer than Competitor's)
OZP-170 VS Competitor's equivalent (actual data)
Power failure detection signal
All OZP series is equipped with power failure detection signal as standard, so
that customer can save the cost for making detection board. (Except for J0L series)
New ! Low-cost type with condensed
function by removing some functions.
Please refer to bottom side of P6.
OZP-170-**-J0L
Measurement condition
8 fins(PFC, main)
Time (min.)
Model name:OZP-120-**-J0L
Operation stability of the system will be
improved by line drop correction. 24V output
can be boosted up to 29V, and also can be
used as charging voltage source for lead
battery. (Except for J0L series)
Power failure detection and backup operation
"Friendly to global environment" & "Quality product with lower price" as motto of Nipron's design policy brings energy
saving (high efficiency) and resource saving (long life more than 10 years.) In OZP series, synchronous rectification
and innovative circuits contribute to higher efficiency bringing in lower temp. rise and longer life with long-life electrolytic
capacitors (105 deg C10000H.) Furthermore, VCCI Class B (Conducted emission/Radiation) easily passes without
external noise filters. Excellent low noise power supply with the voices "No need of external noise filters!" from customers.
Apply voltage externally
Output ON
Output OFF
Open
Remote signal ineffective (Output by AC apply)
Equipped
Remote signal effective (Output by remote signal CN6)
Removed
Variable resistor for output voltage
Continuous 120W (Peak 216W max.)
Continuous 170W (Peak 300W max.)
OZP-170 series
(Shorting plug)
At 12V output 150W
Competitor's equivalent
OZP-120 series
ON/OFF control is available by remote terminal.
(Except for J0L series)
OZP-170-12/15
Long life,Low noise
AC-DCgeneral-purpose power supply
Output ON/OFF control function
Output voltage(V)
120W/170W OZP series
AC-DC
Switching power supply
Input/output terminal
Nylon connector, European terminal, or Block terminal
3 types for input/output terminals
European terminal or block
terminal as well as nylon
connectors for input/output
terminals available.
Block terminal
Selectable Chassis or Cover
Choose from board type,
with chassis type, or
with chassis and cover type.
Board type
W/ chassis
W/ chassis and cover
Switching Output voltage
For 12V/15V, 30V/36V type can
be switched output voltage by
shorting plug.
New ! Low-cost type with condensed function by removing functions on right note.
・Selectable output voltage
・Remote ON/OFF control
・Power failure sensor
・Power failure back up
Model name: OZP-120-12-J0L, OZP-120-24-J0L, OZP-170-12-J0L, OZP-170-24-J0L
・Variable resistor for output voltage
Low-cost type power supply with condensed function
Nylon connector European terminal
Shorting plug(CN9)
apply: 12V,30V output
remove: 15V,36V output
(12V,30V set at the shipment)
6
200W OZP-200 series
AC-DC
Switching power supply
Focus on Green
correspondence
High efficiency, High peak
AC-DC switching power supply
Continuous 200W
Peak 300W/400W
OZP-200 series
OZP-200 series
Low noise & Low leakage current
Parallel operation available
Conducted emission VCCI Class B easily passes without external
noise filter. It reflects the cost reduction for preparing the PC
board at the user's side. Also leakage current is low 0.06mA at
100VAC and 0.12mA at 200VAC.
Current balance circuit is equipped and parallel
operation is easily possible. (OZP-200-**-*S0)
Output voltage volume are also got in balance,
so it is OK to set the voltage of either one of the
two units. The higher voltage setting will be
taken, and the lower setting of the another unit
will be boosted to the same value.
Class B QP (Quasi peak) level
Class B QP (Quasi peak) level
Class B AV (Average) level
Class B AV (Average) level
High peak power
The circuit system regenerating switching surge voltage is adopted. By
this circuit, Rebound (flyback) voltage occurred from large current
output at secondary side is substantially reduced and surge energy is
regenerated into input side.
This model achieves more than 1.3 times as large capacity as
competitor's even with same chassis sizes. Also 1.5 to 2 times as large
peak output then continuous output is possible. (Output voltage min 12V)
Competitor
150W
───
Cont.
Peak
Nipron OZP-200
200W
300W(Output type: min 5V)/400W(Output type: min 12V)
[5V output type]
OCP65-75A
Peak 60A
2 times as large
as competitor's
New models in OZP series! Powerfully supports the system with output continuous 200W, peak 300W/400W.
Synchronous rectification circuit is equipped(*) and achieves. This type has achieved much higher efficiency than a
general switching power supply resulting in reduction of electric bills, reduction of CO2, and long life. Also it brings low
temperature rise for whole systems since it generates less heat. (* +3.3, +5V, and +12V output type.)
Nipron
Other features
Output voltage remote sensing function
Detects output voltage by connecting the sensing wire to the load end, and
compensate for the line drop as occurred by output cable. (+ side line drop)
Blackout detection signal equipped
Blackout detection signal is equipped. Cost to produce detection board can be eliminated.
Signal
Cont. 40A
OCP34A
Cont. 30A
Competitor's
Blackout detection signal
Detection level
AC 80V typ
Detection delay time
Output
Open collector
20~50ms
Recovery level
OZP-200
+AC FAIL
Blackout/voltage drop
detection level
Comparison of Electric Bills & CO2 emission
High efficiency 87%
Conditions: 150W output, 24-hour continuous running for 365 days
High efficiency 87%* even with low voltage output. Improve 7%
than general switching power supply. This is the power supply
fitting with the times which can reduce CO2 emission and save
energy. (* At 200VAC input and rated load)
5V PSU
Nipron
Competitor's
1 unit
Input voltage OZP-200-5 150W 5V
Electric Bills
AC100V
31,064 yen 33,866 yen
(yen/year) *1
AC200V
30,138 yen 32,809 yen
CO2 emission
AC100V
587.1kg
640.1kg
(kg/year) *2
AC200V
569.6kg
620.1kg
Efficiency comparison
Input Voltage
Efficiency
AC100V
at 150W output Input power
Efficiency
AC200V
at 150W output Input power
Nipron
OZP-200-5
84.6%
177.3W
87.2%
172.0W
Competitor's
150W 5V
77.6%
193.3W
80.1%
187.3W
87.2%
50
Power loss [W]
Improve
7%
80
80.1%
40
Decreace
power loss
39%
Competitor's
30
20
OZP-200-5
Competitor's
78
10
77.6%
76
80 100
150
200
AC input voltage [V]
240
0
0
50
100
150
200
Output power [W]
250
Improve efficiency with Synchronous rectification circuit
Diode Rectification
+
If diode drop voltage is 0.5V and FET drop voltage is 0.06V (ON resistance
1.5m ohm) at current 40A;
Drop voltage 0.5V
Power loss=0.5V x 40A=20W
Heat generation: High … Low efficiency
7
Blackout detection signal
Cont. 200W
Peak
300W/400W
150W+150W
Use 2 units of
competitor's power supply
Using one unit,
OZP-200, is enough.
Current 40A
synchronous
rectification signal
Drop voltage 0.06V
(at FET ON resistance 1.5m ohm)
Power loss=0.06V x 40A=2.4W
Heat generation: Very low ... Efficiency UP
Cont. 400W
Peak 600W/800W
*Parallel operation
available
150W+150W+150W
*Parallel operation
impossible
Life expectancy min 10 years
Measurement conditions Direction: A
under conditions of natural
Input connector
Input voltage: 100V
air cooling and ambient
Output power: 150W
temperature 30...This is 3
W/O Chassis and cover
times longer than
Installation direction: A
(See the right drawing)
competitor's! Achieve longer
life by thermal averaging
design. (Long-life electrolytic capacitors, 10,000H at 105.., are
used in weak point section.
3mA max
30Vdc max
CR time
constant
Detection delay time
20~50ms
‐ AC FAIL
Output ON/OFF control function
CN2
CN6
ON/OFF control is available by remote terminal.
Output ON
Apply voltage externally
CN6
(RC signal terminal)
Open
Output OFF
Remote signal ineffective (Output by AC apply)
Equipped
CN2
(Shorting plug)
Remote signal effective (Output by remote signal CN6)
Removed
Double-sided PCBs with through-holes
With double-sided PCBs with through-holes suitable to industrial
use adopted, solder cracks will be gone even in lead-free
process. Also achieves higher efficiency to use epoxy-glass
board that is less affected by aging variation.
Solder Crack
Corresponds to the capacitor package as for instantaneous power failure measure
Capacitor package protects the system from
instantaneous power failure.
Capacitor Package
"BS13A-EC400/422F"
Noise reduction board (Optional)
Use 3 units of
competitor's power supply
Using two units,
OZP-200, is enough.
Cost down and Weight saving
(Measured in house with test conditions as above column)
The noise occurred by plus loads as LED display can be reduced with this
board.
Output voltage settable resistor equipped as standard
Operation stability of the system will be improved by line drop correction. 24V
output can be boosted up to 29V, and also can be used as charging voltage
source for lead battery.
Comparison of Life expactancy
Product line up
FET Synchronous rectification
+
Current 40A
At Peak load 300W
At Continuous load 400W
Life expectancy [year]
Efficiency [%]
82
Reduction in a year: Electric bills approx. 2,802 yen at
100VAC/2,671 yen at 200VAC, CO2 emission approx. 53kg at
100VAC/50.5kg at 200VAC. (*1) 20 yen/kWh (*2) 0.378kgCO2/kWh
Loss comparison
OZP-200-5
84.6%
7.0%
16.0W
7.1%
15.3W
60
86
84
Difference
Difference
2,802 yen
2,671 yen
53.0kg
50.5kg
Nipron
(With peak output)
Long life, 3 times longer than Competitor's
Efficiency comparison (Output power 150W)
88
Competitor's
(Without peak output)
System
side
20
18
16
14
12
10
8
6
4
2
0
25
Model name OZP-200Output voltage
3 times
time as
longer
long as
than
competitor's
Natural air
cooling
OZP-200-5
Output
Forced air
current/voltage cooling
Competitor's
equivalent
Peak (10s)
30
35
40
45
50
55
60
65
Ambient temperature [deg C]
Note 1: Life expectancy of competitor's equivalent is calculated from the data on their Web site.
Note 2: The life expectancy is based on continuous load of 150W. (In practice, load derating is required at high temperature.)
Note 3: The life expectancy is a lifetime in calculation. It shall be 15 years at the longest when degradation of materials used for
opening of electrolytic capacitors is taken into account.
Input voltage
Size(W x H x D)
Input/output terminal
3R3
3.3V
40A
132W
46A
151.8W
60A
198W
5
12
15
24
36
48
+5V
+12V
+15V
+24V
+36V
+48V
40A
16.7A
13.4A
8.4A
5.6A
4.2A
200W
200.4W
201W
201.6W
201.6W
201.6W
46A
20A
16A
10A
6.7A
5A
230W
240W
240W
240W
241.2W
240W
60A
33.4A
26.7A
16.7A
11.2A
8.4A
300W
400.8W
400.5W
400.8W
403.2W
403.2W
AC85~264V (Worldwide input, PFC equipped)
73 x 40 x 222(board type)/83 x 49 x 252(w/ chassis)/84×51×252(w/ chassis and cover)
Nylon connector or Harmonica terminal
Board type
W/ chassis
Nylon
Nylon connector
connector
W/ chassis and cover
Harmonica terminal
*With volume adjusting, 36V output power supply can be used as 30V power supply.
8
AC L
Fulfilling power supply with cost performance !
AC-DC General -purpose ATX Power supply
AC N
FG
Continuous max 360W (Peak 600W max.)
Continuous max 720W (Peak 1200W max.)
GPSA series
Excellent cost performance, multifunction power
supply, GPSA series!
Rating
PeakMax
900W (AC100V)
1200W (AC200V)
GPSA series has two sets of over current protection
(OCP1, OCP2) best for induction motor load.
Output voltage Vo
GPSA has two sets of over current protection of 5 sec. timer shutdown and hold
down, best for induction motor load.
GPSA-360: OCP2≧600W
GPSA-750: OCP2≧1200W
OCP2 (2.3/2.7 Io)
Time
Peak Power 744W
After 5 sec.
In case of a repetitive pulse load within OCP2 point, the actual output current
calculated by root-mean-square value shall be less than 100% of the rated
current.
The GPSA series, however, has a safety design feature such as internal over
heat protection that prevents its damage from a miss use due to over powered
pulse loads.
9
⑤ 12V standby output equipped
This standby 12VSB supplies 0.3A, real ability is approx. 0.5A,
as auxiliary power supply.
Standby output
For example, we have track record such
+12VSB (auxiliary power supply)
as 24Vfor motor drive and 12VSB as
power supply used for interface of LAN
and USB for finance terminal
*1 Approx. 0.5A is actually available
equipments.
*2 0.1A max at backup operation
0.3A
⑥ Available for Power failure sensor/Back-up
GPSA
12VSB
Blackout/Low voltage
sensor level
at rated load
0.10mA
0.19mA
GPSA-750-24
Competitor's (600W)
0.19mA
0.37mA
GPSA series
Low leakage
current
0.25mA
0.46mA
Total leakage currernt can
be kept low even when
multiple power supplies are
connected to the system.
AC FAIL
More than 3% higher efficiency compared with Competitor's
Efficiency Comparison
Battery backup operation during blackout is possible for 24V output type
(GPSA-***-24) with the battery pack (BS14*-H24/2.5L) connected.
90
GPSA-750-24
- Fuse is without a tip
- Dielectric strength: 4kV (between primary and secondary)
- Insulating distance (approx. 1.5 times of IEC60950-1 Standard)
Complying with PSE Standards by fulfilling these requirements above.
Models which complying with Medical Standards have "m" before
"GPSA" such like "mGPSA-360", "mGPSA-750" (750 is scheduled to
be acquired) *[GPSAseries] are complied with medical standards.
85
80
Competitor's
equivalent
75
80
70
65
65
0
100 200 300 400 500 600 700
Output Power[W]
Competitor's
equivalent
75
70
60
22kΩtyp
Blackout detection signal equipped/Backup at blackout available
90
85
4mA max
Detection delay time
20~40ms
AC Fail signal
(at AC200V)
(at AC100V)
60
0
100 200 300 400 500 600 700
Output Power[W]
Efficiency comparison between GPSA-750-24 and Competitor's equivalent (actual data)
Low leakage
current
Medical Standards (IEC60601-1) will be hard to comply than
Information equipment Standards (IEC60950-1).
Designing requirements are shown below.
System side
30Vmax
22kΩtyp
CR Time constant
④ High efficiency&Long life
Actual measurement example (actual measurement)
About Medical Standards
In order to reset the power supply after being shut off, remove AC power for 10
second and turn on again. Any factor that causes over current conditions more
than 5 sec. must be fixed.
35
40
45
50
55
60
Ambient temperature(deg C)
Signal
Output
Detection level Detection delay time
Blackout detection signal AC 80V or less
20 to 40ms Open collector
for 10 seconds at AC 200V
BASIC FUNCTION
GPSA-750-24
GPSA series
If the output current exceeds OCP1, the 5 sec. timer will set in and then reset if
the load current decrease less than OCP1 within 5 second. If not, the output
power will shut off.
30
All GPSA series is equipped with blackout detection signal. Cost to
produce detection unit can be eliminated.
Continuous Power 648W
GPSA series meets the leakage current of less than or equal to 0.5mA at
nominal input voltage that Medical standard IEC60601-1 requires. In the case of
multiple power supplies connected to one system, total leakage current of the
system can be kept low when GPSA series is used. Also, using GPSA series as
intermediate bus, low leakage current system can be built with D/C converters
after the power supply.
5 sec. timer
If the output current exceeds OCP2, the output voltage will start to go down and
then shut off, provided such condition continues more than 300ms.
25
ReferenceDara
(Out of Specification)
② Low Leakage Current Specification
5 sec. timer
5 sec. timer
20
Actual measurement example (In-house data)
AC100V
AC200V
Set in
5 sec. timer
Recover
Load ratio100%
Load ratio 80%
Load ratio 60%
FAN
Return level
Input voltage GPSA-360-24
Load current Io
6
4
Blackout detection signal
Competitor's 600W power supply
Efficiency[%]
PeakMax
720W
OCP1 (1.05 Io)
Input voltage: 100V AC
Output power: Rated (720W)
Mode: Peak
Class
limilimi
Class BBQP
QP(Quasi-Peak)
(Quasi-Peak)
Class BBAV
AV(Average)
(Average)
limit
Class
limit
Efficiency[%]
Rating
10
8
GPSA-750-24-TP
500W (AC100V)
600W (AC200V)
360W
GPSA-750
BASIC FUNCTION
Gap
Competitor' price
GPSA-360
Higher efficiency by 3 to 5%
Low noise (Conducted emission/Radiation)
Medical standard compliant
Low leakage current
Peak Power
1200W for 5 seconds at AC 200V
900W for 5 seconds at AC 100V
Continuous Power 720W
small difference
in price, and
GREAT difference
in value!
Nipron'
Nipron' price
price
Peak power gives 1200W for 5 seconds, and more at AC 200V input.
12V/0.3A standby equipped
GPSA series meets conducted emission class B requirement even with low
leakage current specification unlike other power supplies that also achieve
low leakage current while victimizing conducted emission (or inviting large
noise).
Value end-user receives Competitor's PS value
① High Peak Power
GPSA/mGPSA series have two fuses in both AC lines equipped and low
leakage current meeting medical standard, PSE can be easily met.
Also, GPSA/mGPSA series have done to be double and reinforced
insulation, therefore you will not need to prepare for extra fuses or breaker, or
set up supplementary insulation outside of the power supply.
③ Conducted Emission Class B compliant
Nipron GPSA-750 power supply
Backup at blackout available
Blackout detection signal equipped
14
12
2
0
Function and Value
GPSA's Value
NIPRON
A little price difference gives you great added values,
merits to end users by multifunctions which
competitors do not have the equivalent types.
GPSA-750 series
Isolation transformer for medical use are mounted.
Creepage distance and dielectric strength are also
compliant with medical standard.
GPSA-750-24_Life expectancy graph
16
Output Voltage Output Power Input Voltage
Nipron
(GPSA-750-24)
24V
600W
Competitor's
equivalent
24V
600W
Efficiency electricity expense*
AC200V
83.6% 125,742yen
87.2% 120,551yen
AC100V
80.7%
130,260yen
AC200V
84.2%
124,846yen
AC100V
*600W Output, 24hours/day, continuous running 20 yen/kWh conversion
Comparison for electricity expense and CO2 emission (600W output, 24 hours/day, continuous
running)
Cuts electricity expense about 4,518yen (at AC100V)/about 4,295yen (at AC200V)
CO2 emission about 85.4kg (at AC100V)/about 81.2kg (at AC200V) through a year!
(*1) 20 yen/kWh conversion (*2) 0.378 kgCO2/kWh conversion
Battery pack(Ni-HM battery)
- Switches from AC operation to DC battery operation
without instantaneous stop.
- Max. cont. output 170W, Peak output 240W (within 10s)
- Parallel battery backup operation is possible
with current balance circuit equipped.
- Battery low signal equipped.
- Battery discharge will be stop by the timer stop
with DIP switch or input of remote signal to GPSA.
- Automatic shut down can be done with NSP Pro 2.
[BS14*-H24/2.5L]
(Harness is optional)
LED lighting pattern changes
when the BATT is charging or
discharging.
Automatic shut down possible
by NSP Pro 2 (Software)
Settable discharge stop time with DIP switch.
Setting available time
[BS14A-H24/2.5L]:1min./5min./10min./15min./20min./25min./30min./35min.
[BS14P-H24/2.5L]:5sec./10sec./30sec./1min./2min./3min./5min./10min.
Battery package
Model: BS14A-H24/2.5L
Battery: Ni-MH battery
Output: 24V 170W (Peak 240W 10s max.)
Backup time: See the graph on the right
* Backup time is just a guideline at first use, not
guaranteed.
Backup time:
Time (min.)
GPSA-360 series
Switching power supply
With Load ratio 80% (576W), ambient temp. 40 deg C, life expectancy
of GPSA is over 10 years!
Life expectancy(Year)
GPSA series
System
360W/720W
Fuse are mounted on both L and N line.
switching
circuit
AC-DC
Switching power supply
Life expectancy
<GPSA/mGPSAseries>
40
30
20
10
0
70
90
110 130 150 170
Load(W)
10
Other Features
Application example
Convenient size for rack mounting
Designed to mount in 19 inch rack.
1U (width), 3U (height) for GPSA-360/500P
2U (width), 3U (height) for GPSA-750/900P In addition, 1U (width), 3U (height) for battery 3U
package.
They are all mountable into 1U, 2U, and 3U rack.
Battery pack
[BS14*-H24/2.5L]
1U 1U
2U
Silence
GPSA series controls fan speed by temperature detection inside the power
supply. Thus,the fan speed slows at light load inviting silence.
Noise data (actual measurement example) Ambient temperature: 25 deg C, background noise: 31dB
Load
GPSA-360-24
GPSA-750-24 Competitor's (600W)
100W
300W
600W
39.0dB
45.5dB
-
37.0dB
39.5dB
45.5dB
53.5dB
Whole-dip coating to resist neutral salt spray test
This example shows modified GPSA as a power supply for motor-roller
conveyor.
Many of motor-roller conveyers are installed in factories and warehouses
near the coast where salty humidity by sea breeze other than dust is
generated. However, stable operation of power supply is required even in
the environment like that.
- PCB coating (whole-dip coating)
- Protection of discrete components such as diodes against dusts by tubing
have been implemented.
Here's the solution! by whole-dip coating, as even
double brushing cannot cover all area. It has brought
continuous stable operation even under harsh neutral
salt spray test!
(Brush-coating proved poor operation to stop in several
minutes.)
Under harsh neutral salt spray test
(fixed velocity FAN)
Variable resistor for output voltage
Operation stability of the system will be improved by line
drop correction. 24V output can be boosted up to 29V,
and also can be used as charging voltage source for
lead battery. With volume adjusting, 36V output can be
used as 30V output power supply, and 48V output power
supply can be used as 42V output power supply.
Remote ON/OFF function equipped
Output ON/OFF control is also available by Remote ON/OFF signal PS_ON.
Fan monitor signal equipped
Fan monitoring signals (FAN_M1,FAN_M2) of the two fans installed are
available.Those signals allow you to monitor fan speed.
PWR_OK signal equipped
●Feedback noise prevention
FCC-B, VCCI-B, EN55022-B, and CISPR22-B compliant
Medical standard, EN6060-1-1 acquired.
Leakage current (0.21mA max at AC 100V)
Referential picture
As medical-standard power system
- No isolation transformer required in front
- Backup operation at blackout is available
- Flexible medical power system is here for you simply changing
the secondary unit of GPSA power supply
24V output model GPSA
"H"signal is delivered when the output is normal.
Interior view (GPSA-750)
Both side dip-coating
●Cooling fan
Two cooling fans are mounted.
The fans have ball-bearing system and have
long life expectancy (100,000 hours at 40 deg C,
made in Japan).
The fan alarm delivers revolution monitor output
for each fan
AC
INV.
24V
ATX output
DC-DC
Converter
Double or Reinforced Insulation
+24V
+3.3V
+5V
+12V
-12V
+5VSB
GND
Non-Insulated type
Mechatronics Power Supply〔No. 1〕
・Selection Points for motor, solenoid and actuator
・Measure against vibration, shock and environmental problem
12V.15V.24V.30V.36V.48V Wide variations for each motor type!
The drive unit such as motors or solenoids is popularly used for the automatic machine devices, the automatic measurement system, the
cutting machine, the robot tool and carrier system.
The motor type and its control system is changed to the direct current motor, the AC servomotor and the stepping motor depend on the
use or its combination of the case that driving force is top priority, the case that speed and response is demanded and the case of
positioning precision are demanded.
As for the switching power supply, various functions become necessary. The needed functions are not only the variation of the output
voltage but also the function that is needed by the various drive devices for example of the large peak current.
Otherwise, we have a look at a lot of contradiction and mismatch that it is chosen a power supply by severe cost priority, but it is chosen
big power supplies more than required by peak electric current correspondence in the customers that make the design and fabrication of
an automatic machine.
Taking advantage of this time that GPSA series is improved to the 3 times peak current for the motor load use , we NIPRON studied the
most suitable choice method and produced this machatronics power supply as a special feature.
Mechatronics Power Supply, Selection for the various motor
Peak current ; 1.5 - 1.8 times
available for 10 sec.
120W class
170W class
Peak current ; 2.3 - 2.7 times
available for 5 sec.
24V limited edition available for the UPS functions
Battery pack
200W class
360W class
Charge/Discharge
750W class
600W class
Two fuses in both AC lines equipped.
Battery Package
"BS14A-H24/2.5L"
●Electrolytic capacitor
Made in Japan components
with 5,000 hours minimum
(105 deg C) life expectancy
used in all parts
Insulated type
Non-isolated and Isolated DC24V-input ATX
power supply are provided to connect GPSA.
Also, customized power supply is available.
BS14A-H24/2.5L
●Electronic components
Made by Japan's leading
manufactures
Sequence output board
The board is separate from the PCB. The board can be modified to
insulate each signal or to switch signals.
(FAN M, PS_ON#, PWR_OK, AC FAIL, BATT LOW)
The sequence part has connector output and it can be customized.
Neat layout design
Superior cooling and low inter-component
interference layout design
GPSA is ready for a sensor signal (HV signal) of voltage regenerated
by servo motor driver.
(Series type)
Series type Output voltage
GPSA-360
Continuous
12
24
Common SPEC
+12VSB
+24V
+12V
15A
30A
0.3A
360W
360W
3.6W
Output current/
20.8A
40A
0.3A
Peak (5s)
Output power [AC100V]
499.2W
480W
3.6W
25A
40A
0.3A
Peak (5s)
[AC200V]
600W
480W
3.6W
Dimension (W x H x D) 41 x 128 x 230 (Exclusive fan guard (+5mm),exclusive terminal block (+15mm))
56A
30A
0.3A
GPSA-750
Continuous
672W
720W
3.6W
Output current/ Peak (5s)
70A
37.5A
0.3A
Output power [AC100V]
840W
900W
3.6W
80A
50A
0.3A
Peak (5s)
[AC200V]
960W
1200W
3.6W
Dimension (W x H x D) 82 x 128 x 235 (Exclusive fan guard (+5mm),exclusive terminal block (+20mm))
Common Input voltage
AC85V~264V(Worldwide input, with PFC)
Harmonica terminal
Input/output terminal
Communication connector
with battery package
Various Input/Output
signal connector
(PS_ON#,PWR_OK,FAN_M
AC FAIL,BATT LOW)
OZP-170-***
170W
DC+
DC+
DCDC-
Output voltage adjustable resitor
LED equipped for visual
check (turn-on at normal
operation)
Battery package connection
connectors
(can be used as output connector
when battery package
is not connected.)
FG
AC(N)
AC(L)
GPSA-750
OZP-170 series
OZP-200 series
GPSA-360 series
GPSA-600 series
GPSA-750 series
software
NSP Pro 2
OZP-120-***
120W
Model name
* Complying to medical standard "mGPSA series" are available for 12V, 24V output. (mGPSA-750 is scheduled to be acquired.)
OZP-120 series
Series type
Products line-up
11
Available for the backup
against the blackout
Ready for a sensor signal (HV signal) of voltage
regeneratedof voltage regenerated
OZP-200-***
200W
GPSA-360-***
360W
GPSA-600-***
600W
GPSA-750-***
750W
Output voltage
Rated output current
Peak output
AC100V
current
AC200V
Rated output current
AC100V
Peak output
current
AC200V
Rated output current
AC100V
Peak output
current
AC200V
Rated output current
AC100V
Peak output
current
AC200V
Rated output current
AC100V
Peak output
current
AC200V
Rated output current
AC100V
Peak output
current
AC200V
+48V +12VSB
+12V
+15V
+24V
+30V
+36V
10A
8A
5A
4A
3.4A
2.5A
15A
12A
9A
7.2A
6A
4.5A
14A
11.2A
7A
22.5A
9A
12.5A
16.7A
13.4A
8.4A
5.6A
4.2A
33.4A
26.7A
16.7A
11.2A
8.4A
30A
40A
40A
50A
80A
100A
56A
70A
80A
15A
20.8A
25A
25A
50A
60A
30A
37.5A
50A
0.3A
16.6A
33.3A
40A
12.5A
25A
30A
0.5A
0.3A
12
P/S:OZP-120-24
Load : motor roller
Load ratio 100%
Load ratio 80%
Load ratio 60%
FAN
25
30
35
40
45
50
周囲温度(℃)
Ambient
temperature (℃)
Well, I show below the result using OZP-120-24.
We can find how long and how much the voltage dip is at the peak current.
⊿V:-0.48V
(-2.0%)
⊿V:-1.04V
(-4.3%)
scaling-up
wave form
(1V/div)
Power supply
Output voltage (24V)
Output voltage (24V)
About 13.5A
OCP value
(12A actual)
Rated current (5A)
GND
Peak current (9A)
This is the measured waveform of the load by the motor roller and OZP-120-24
above.
The actual peak currents exceed the peak value and the OCP value at the peak
output timing of OZP-120-24 as can be seen the wave pattern.
It is apt to be judged that OZP-120-24 cannot be used in this case, but;
①Check the voltage dip
②Check the average current
The possibility of OZP-120-24 comes out by those checking.
①Checking the voltage dip
①100us
②200us
We can judge that it is in the OCP protect condition when theΔV is more than
10%.
But when it is within 5 %, it is no problem because it is a transient voltage drop
by the impedance of the power supply and its load line.
As theΔV is 92mV and 0.4% in this case, it can be judged as no problem.
Even if the peak current more than OCP value happened, the output charged
capacitors of the power-supply can supply the energy to the output and can
make the stable voltage without the large voltage dip for a certain period of time.
The output from
the capacitors
Load
Secondary circuit
It is the waveform of the peak pulse current of 17A bringing from rated 5A during
time of ①100us, ②200us, ③300us.
The each voltage dip is as followings; ①-0.48V(-2.0%), ②-1.04V(-4.3%),
③-1.52V(-6.3%) If there is it during 200us period of ②, We can obtain the
stable output within load change -5%. *
As for this, even in the case of a different watage power supply of NIPRON, we
can refer the result because the output capacity and the filter value can act to be
in a proportion tendency.
*Please consider it as one aim because it changes by the load current levels.
②Checking the average current
0.98
=0.58(58%)
0.7
PF.-Output power vs. Input VA
Eff.-Output power vs. Input current
100
90
80
70
60
50
40
30
20
10
0
Efficiency
AC100V
AC200V
AC240V
Input current
0
100
200
300
400
500
600
10
9
8
7
6
5
4
3
2
1
0
700
100
1000
90
900
80
800
Power factor
70
700
60
600
50
500
40
400
30
300
Input VA
20
AC100V
AC200V
AC240V
10
0
100
200
After we could judge that there was no problem in the voltage dip caused by the peak
current, we next need to calculate an approximate average current of the output and to
confirm it whether continuous output is possibility thermally.
About 13.5A
OCP value (12A actual)
Peak current (9A)
6
4
Load ratio 100%
Load ratio 80%
Load ratio 60%
0
20
25
30
35
40
45
50
周囲温度(℃)
Ambient
temperature (℃)
55
60
200
100
The recent trends show that requests for turning on/off power supplies
through command signals in system or large machines are increasing.
Therefore, a stand-by P/S that is always active must be equipped.
Nipron's GPSA series (Mechatronics P/S) has [email protected]
stand-by P/S function.
PSE safety standard (Japan Product Safety,
Electrical appliance & materials) to be complied
Because of two fuses in both AC lines equipped and low leakage
current meeting medical standard, PSE can be easily met.
*We can comply with the departmental regulations 1
<GPSA series>
0
0
Output power (W)
8
So convenient with stand-by P/S (power supply)
300
400
500
600
Fuse are mounted on both L and N line.
700
Output power (W)
Power supply for anti-shock and vibration
It is a must to buy the power supply that uses both-side
through-hole-PC Board for applications such as Medical devises that
equip moving arms or vibrators. In addition, large or heavy parts
should be reinforced by silicone as anti-shock and vibration.
Nipron has anti-shock and vibration products available, and accepts
special treatment.
PC P/S for MRI/CT
n
cceleratio
atment!
Anti-G treexample for 50G a
Actual
Rated current (5A)
AC L
AC N
Switching power supply
FG
Isolation transformer for medical use are mounted.
Creepage distance and dielectric strength are also
compliant with medical standard.
- Leakage current
0. 3mA or less necessary at AC264V, 60Hz
(patient-care system - class I)
- Dielectric strength: 4kV (between primary and secondary)
- Insulating distance (approx. 1.5 times of IEC60950-1 Standard)
GND
*Silicone treatment points may differ from actual example.
We calculate the average current of the waveform above assuming that it is the
red line waveform.
If the average current that we demanded is lower than 70% of power supply
output capacity, we can judge it no problem.
In this waveform, the average current of the red part is approximately 3A and is
lower than 70% of the output capacity of OZP-120-24 and then we can judge it
no problem even if the continuous use.
Hereon even if a peak load current is more than the OCP value, the power
supply is not needed to change to a larger one of the capacity more than
required and can has usable possibility just as it is.
So we recommend you to talk with us Nipron when you face to this kind of the
problems.
Well, the mean current is measured by the function of the measuring instrument
to confirm a average current ② and it can be judged even to confirm that the
mean current is lower than the rated current of the power supply.
13
Motor
Efficiency
×
GPSA-750-24-TP(ex. Actual measurement)
③300us
(20ms/div)
When the peak currents at the motor start-up exceed the OCP value, that is
cause of the big dip ΔV by the OCP characteristic of the power supply.
0.85
Efficiency (%)
GND
PSU
Power
Efficiency× factor
Pule current (17A)
OCP value (12A actual)
Rated current (5A)
Motor
Input VA (VA)
(20ms/div)
60
Input connector
10
In case of motor roller conveyers in
warehouses or plants that are often
close to shores, hence, accidents
due to accumulated dust and
corrosion of saline particles, in case
of weave machine application,
problems due to conductive thread
Both side dip-coating
were observed.
Nipron is reinforcing environmental measures by dip-coating to both side
of PC Board and putting insulation tubes to power semiconductor's leads.
The total efficiency with the total load including the
power transmission line is as below;
⊿V:-1.52V
(-6.3%)
Power factor (%)
scaling-up wave form(100mV/div)
⊿V:-124mV(-0.5%)
55
Measurement conditions
Input voltage: 100V
Output voltage: 24V
Chassis cover: Non
Mounting position:
Side wall (inset)
Environmental measures for motor
equipment under harsh conditions
In a green age, total high efficiency power
supply for motors to be sought
Input current (A)
We show our study about the waveform of the actual condition example 2.
12
2
GND
GND
Image
OZP-170-24_Life expectancy graph
14
load current
2.5A/div
load current
5A/div
16
System
P/S:GPSA-360-24
Load:bill counter
GPSA-750-24_Life expectancy graph
20
18
16
14
12
10
8
6
4
2
0
20
switching
circuit
Actual condition example 2
(200ms/div)
Life expectancy (Year)
In case of OZP-170-24 (right side
graph), assuming that peak current is
less than 12.5A and 7 years life is
required at 45℃ ambient, the load
current Iorms necessary for 7 years
life will be obtained at a cross point of
80% derating curve at 45℃,
therefore, Iorms=7A×0.8=5.6A.
Study of the voltage vs the peak current at the actual or worst condition
Actual condition example 1
How to calculate actual load current vs. required life, based on life expectancy graph
Point 2
Life expectancy (Year)
■ Selection points for the mechatronics power supply
Point 1
Both-side through-hole-PC Board used! (Competitors just single-side PC Board)
No more problem of solder cracks especially due to lead free soldering.
Example of
solder cracks
Available for Power failure sensor / Back-up
GPSA and OZP entire series equip a power failure sensor so that
customer can save the cost of making a sensor circuit.
Also +24V output type can achieve a back-up with batteries during
blackout and then automatic shut down can be done with NSP Pro 2.
(Harness be required)
Power failure sensor (AC Fail) sequence
Return level
Blackout/Low voltage sensor level
If solder cracks happen, protection circuits such as OCP and OVP may not work,
or induce an abnormal output voltage causing the secondary failures in the system.
Operation at -20℃ conditions
This is an example of OZP series as an outside gate control P/S.
Because of outside operations, customer initially asked -20℃ special
design, however, even standard OZP series has met -20℃ operations.
(Power derating required)
Battery pack
Blackout sensor
CR
Time constant duration
GPSA 24ms
OZP 29ms
AC Fail signal
Automatic shut down possible
by NSP Pro 2 (Software)
14
Various lineup and customization support
Mechatronics Power Supply [2]
Revolution in Mechatronics Power Supply
to change the world
of Heavy Machinery and Inspection Machines
Special topics for All-in-one type system power supply
<Note> Continuous output power for CH1 + CH2 is 708 to 720W, and 1080W for peak power.
No. CH1 Power output
+24V
1
15A(22.5A)
+24V
2
15A(22.5A)
+12V
3
30A(45A)
+12V
4
30A(45A)
5
6
7
8
9
Nipron takes into account standardization of power supplies wherever possible.
Standardization may bring extra function to specific needs resulting in higher cost. However, it
seems to be harder nowadays to produce customized products to meet individual customers.
Because building safety and stability in power supplies requires a lot of efforts and time for design
development and evaluation test, and also safety standard acquisition requires much time and cost.
So far, there have been many power supply manufactures in Japan for customized power supplies.
They meet specific requirements with Japanese sensitive and ingenious characteristics. Today they
face repeatedly restructuring in manufacturing industry (hard) and many are forced to step down
from their business despite they have good ability to maintain reliability.
We, Nipron, reflecting those circumstances, develop basic models of standardization-oriented
products that can be easily modified.
This special topics show you high power multi output power supply (600 ~ 750W) in this stream.
10
11
12
13
+3.3V
10A(20A)
+3.3V
10A(20A)
+3.3V
10A(20A)
+3.3V
10A(20A)
CH2 Multi output
+5V
+12V
20A(30A) 17A(40A)
+5V
+12V
20A(30A) 17A(40A)
+5V
+12V
20A(30A) 17A(40A)
+5V
+12V
20A(30A) 17A(40A)
Any value between +24 and 48V Any value between +3.3 and +12V
Any value between +12 and +36V
230W(360W)
130W(150W)
360W(540W)
Any value between +24 and 48V Any value between +3.3 and +12V
Any value between +12 and +36V
230W(360W)
130W(150W)
360W(540W)
Any value between +12 and 24V Any value between +3.3 and +12V
Any value between +12 and +36V
230W(360W)
130W(150W)
360W(540W)
Any value between +12 and 24V Any value between +3.3 and +12V
-12V
0.3A
-12V
0.3A
-12V
0.3A
-12V
0.3A
Any value between +12 and +36V
230W(360W)
130W(150W)
Parallel connection with CH1 is available
+24V
15A(22.5A)
At parallel connection: 30A (45A)
+12V
30A(45A)
Parallel connection with CH1 is available
+12V
At parallel connection: 60A (90A)
30A(45A)
360W(540W)
+24V
15A(22.5A)
+24V
15A(22.5A)
+12V
30A(45A)
Any value between +12 and 48V Any value between +15 and +36V
360W(540W)
360W(540W)
Any value between +12 and 48V Any value between +15 and +36V
360W(540W)
360W(540W)
CH2 output
* Output combination is allowed such as single
output, two outputs, three outputs and four outputs.
* ( ) shows peak power for 5 seconds at the max.
Though continuous power rating is 360W, but
approximately continuous 450W max can be
obtained if CH1 output is reduced.
CH3
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
+5VSB
1.5A
Auxiliary output
12/15V 12/15V
8.4W
6W
V6
V7
×
×
12/15V 12/15V
8.4W
6W
V6
V7
×
×
12/15V 12/15V
8.4W
6W
V6
V7
×
×
12/15V 12/15V
8.4W
6W
V6
V7
×
×
V6
V7
×
×
V6
V7
×
×
V6
V7
×
×
12/15V 12/15V
8.4W
6W
V6
V7
×
×
CH3 output
* +5VSB is synchronized with AC mains as
standby output.
* Installed to all models as standard and
continuous 15A load is available.
* Optional V6 and V7 are independent
output and synchronized with +5BSB.
CH1 output
* CH1 is designed for Power use and its rating is 360W. ( ) shows peak power that gives up to 540W for
5 (five) seconds at the max.
* It also supplies 480W continuously if power in CH2 can be reduced
Nonstop type
with UPS function
GNSP model name
General purpose type
GMX model name
Negotiable
GMX-1000P-24X05-T2(5)P
GNSP3-750-24X05-TRP
GMX-1000P-24X05-T0P
Negotiable
GMX-1000P-12X05-T2(5)P
GMX-1000P-12X05-T0P
GNSP3-750-12X05-TRP
Negotiable
Negotiable
GNSP3-750-242405-TRP GMX-1000P-242405-T0P
GNSP3-750-241205-TRP GMX-1000P-241205-T0P
GNSP3-750-121205-TRP GMX-1000P-121205-T0P
Negotiable
Rising and falling characteristics
AC
power input
CH3 auxiliary output
+5VSB
CH1, CH2
main output
* CH1 and CH2 are allowed to be on or off external remote ON-OFF signal. Also, those
outputs for standard models start up and fall synchronizing with AC mains on.
* CH1 and CH2 can operate to rise and fall individually by external signal.
* Sequential timing of rise and fall of CH1 and CH2 can be programmed by micro
computer in optional board if required.
No. 1, 2, 3, 4, 9, 10, and 11 have been in the market. For No. 5, 6, 7, 8, 12,
and 13, we are ready to hear your requirement to go ahead.
E
【Ex.】 GNSP3-750-24X05-TRP
Nonstop type (with UPS function)
CH1
series
~
24V+ATX output
PFC
Inverter
Chopper
control circuit
Commutation
& smoothing
Chopper
control circuit
Commutation
& smoothing
V1
AC input side
charging
circuit
Inverter
128
(3U)
DC input side
Commutation & smoothing
V3
Chopper circuit
Commutation & smoothing
V4
Chopper circuit
Commutation & smoothing
-V5
Inverter
Regulator
Signal circuit
Auxiliary power supply side
~
24V+ATX output
Contact our sales staff or
WEB sales for any
customization.
[email protected]
PFC
Inverter
Chopper
control circuit
Commutation
& smoothing
Chopper
control circuit
Commutation
& smoothing
V2
V3
Chopper circuit Commutation & smoothing
V4
Chopper circuit Commutation & smoothing
-V5
Inverter
GMX-1000P-242405
GMX-1000P-241205
GMX-1000P-121205
pa
cie
n's
Various optional boards
lea
din
●
RS
Op
t
sta 232 ion
C
dr al P
se nda
iv
r
q
cu uen d. U e c CB
irc
sto
S
c
mi e ch B co uit
is
ze
a
e
d a nge mm
un qui
cc
or of ri ica ppe
d
s
ing ing tion d a
Backup control
s
o
c
to
yo an b r
ur
e
Output sequence control
re
qu
ire
me
Automatic startup by scheduling
nt.
ON/OFF control working with the system
Regulator
5VSB
Independent small capacity power supply
Regulator
V6
Digital control with microcomputer
Regulator
Auxiliary power supply side
Ma
effi
for GNSP, GMX
for GMX
for GNSP
Device server board Auxiliary power supply RS232C board
CH2
CH3
235
ibu
ntr
Co
V1
Chopper circuit Commutation & smoothing
128
(3U)
●
co Elec
mp tri
c
de on
by en
ts
Ja
ous
ron ●
nchtifying high
y
S ec
to
r
ncy
tes
AC input side
15
Requirement for
customization in general
Various
input/output signal
CH1
series
82(2U)
de s
r
tsi
ou ive
m del
o
fr rm
ed la
lac n a
n
fa e rep e. Fa
g
b
c
n
.
n
oli can ena nal
Co tor int sig
● n mo y ma nitor
Fa eas mo
n
r
fo atio
t
ro
5VSB
【Ex.】 GMX-1000P-24X05-T2P
General purpose type
GMX-1000P-24X05
GMX-1000P-12X05
Neat layout design
Superior cooling and low inter-component
interference layout design.
CH3
GNSP3-750-242405
GNSP3-750-241205
GNSP3-750-121205
GNSP3-750-24X05
GNSP3-750-12X05
V2
Chopper circuit
235
82(2U)
CH2
l
4,0 Mad ect
00 e i rol
n
y
H
mi Jap tic
n(
a
10 n c cap
Fe
5℃ om
a
ed
) li pon cito
f
ba
us e ex ents r●
ck
ed
pe
wi
no
c
t
in
all tanc h
ize
y
pa
pre
rts
Le
.
a
FC ve
0.5 kag
C- nt
CI
mA e c
B、 ion
S
ma urre PR
●
V
x a nt r 22- EN5 CC
t A equ B c 50 I-B
2
o
C
i
10 red mpl 2-B
ia
0V in
co Jap nt.
mp an
lia ,
nt.
gm
an
ufa
ctu
rer
V7
Signal circuit
Various
input/output signal
16
GNSP Nonstop type
GMX General purpose type
General Specification
AC input
Items
Specification
Rated voltage
Input frequency
Efficiency
Power factor
Inrush current
Input current
Rated voltage
AC100-240V (AC85~264V)
50/60Hz (47-63Hz)
80% typ (AC100V), 85% typ (AC240V) (At rated input/output)
96% min (AC100V), 90% 以上 (AC240V) (At rated inout/output)
31A peak(AC100V), 75A peak (AC240V) Within 5ms (At rated inout/output and cold start 25℃)
9.0A typ(AC100V), 3.6A typ (AC240V) (At rated input and max output)
DC48V (Corresponds to dedicated battery package) (No battery startup)
36V typ (Battery circuit shuts down)
GNSP
80% typ (At rated input/output)
series only
Charging voltage 54V typ (At 25℃ and full charge, with temperature compensating)
Charging current 0.5±0.2A (At battery voltage 48V)
-10-70℃/10-90% (There shall be no condensation)
-25-70℃/10-95% (There shall be no condensation)
Acceleration of 2G with vibration frequency of 10-55Hz for 10 sweep cycles
in the X/Y/Z direction (JIS-C-60068-2-6, at no operation)
Lift one bottom edge up to 50mm and let it fall. Repeat three times for each of
four edges. No malfunction. (JIS-C-60068-2-31, at no operation)
AC input-DC input/DC output: AC3000V/min, AC input-FG: AC2000V/min
DC output-FG: AC500V/min, +24V output-other outputs: AC500V/min
Battery
Battery discharge cut-off voltage
Efficiency (at battery operation)
Environment
At dedicated lead
battery pack connected
Operating temperature/humidity
Storage temperature/humidity
Vibration
Mechanical shock
Dielectric strength
Insulation
Insulation resistance
AC input-FG/DC input/DCoutput: 50MΩ min, DCinput-FG: 50MΩmin
DC input-DCoutput: 50MΩ min, +24V output-other outputs: 50MΩ min (at DC500V)
Leakage current
Line noize immunity
0.5mA max (AC100V) /1mA max (AC200V) /1.2mA max (AC240V)
Electrostatic discharge
EN61000-4-2
±2000V(plus width 100ns and 1000ns, cycle period: 30-100Hz, normal and common mode with positive and negative
polarities for 10 munutes each. (Measured by INS410. There shall be no fluctuation of DC output or mulfunction.)
Radiated, radio-frequency EM field EN61000-4-3
EN61000-4-4
EN61000-4-5
Conducted disturbances induced
EN61000-4-6
by radio-frequency
Power source frequency magneticfield EN61000-4-8
Voltage dip/regulation
EN61000-4-11
Conducted emission
VCCI-B, FCC-B, EN55022-B, CISPR22-B (Measured with power supply single body)
Harmonic current regulation IEC61000-3-2 (At rated input/output)
46,000 H min (by EIAJ RCR-9102)
MTBF
Weight
3.0 kg typ
EMC
Fast transient burst
Lightning surge
Others
Dimensions
When power becomes short in single GNSP power supply, higher power can be available by
parallel connection of each single power supply unit. In that case, make sure to connect current
balancing terminals (CB) each other so that load current of each unit becomes balanced.
If single output, large capacity power supply is needed...
24V
(12V)
+
CB
-
AC
INV.
24V
(12V)
+
CB
-
DC
INV.
24V
(12V)
+
CB
-
AC
INV.
24V
(12V)
+
CB
-
DC
INV.
24V
(12V)
+
CB
-
24V
(12V)
+
CB
-
(Fig. 2)
17
- PC freezing detection
Monitoring on
peripheral devices
- Monitoring on alarm
signal of individual
devices via I/O terminal
of power supply
Control from the distance
CH1 and CH2 outputs can be ON/OFF controlled
and shut down individually form the distance via the
Internet. To achieve this, special software for
shutdown function must be installed in the PC.
<Note> Protection such as Password authentication
to prevent external illegal access is equipped.
Monitoring information mail delivery
Remote communication is available as the power supply works via the Internet.
Function of the power supply with micro server equipped
Monitoring information such as "Power supply
status," "Presence of Freeze-up of PC," "Alarm
information on peripheral devices," can be delivered
by mail.
Support center
Communication
Freeze-up monitoring and reset of PC
Data center
Internet
Router
HUB
Freeze-up status of PC connected to GNSP or GMX
power supply can be monitored and the status notice
can be delivered to reboot the PC manually after
confirmation from the distance. In addition, Automatic
reboot is available depending on setting.
Mother
board
ATX PSU
Micro
server
PC ON/OFF through
WEB application
- Status of the power supply
- Status of the backup
power supply
- PC status
(freezing or not freezing)
- Status of peripheral devices
(normal/malfunction alarm)
Status message can be
delivered to multiple places
via the Internet. Also, control
instructions can be sent from
remote monitoring center via
NET on the Internet.
AC
INV.
24V
(15V)
+
CB
-
DC
INV.
24V
(15V)
+
CB
-
48V(30V) 750W
Automatic shutdown by time at
backup operation
PSU ON
The power supply can be shut down automatically
by time when it reaches to the specific time during
backup operation.
Local network
235
(Image)
48V battery package (Ni-MH battery compatible with Lead battery) for GNSP is under
development. This battery package is to be operated and controlled by Mi-Pack Manager
(application software) already in the market. With connecting to the board which installs
device server and to this package, you can operate heavy machinery and inspection devices
according to scheduling. In addition, maintenance information can be sent to remote places
using battery lifetime diagnostic function via the Internet.
Example of power supply timing by optional board customization
AC power
Customization 1
Input current from battery
AC100/240V
Battery input
After AC power is turned on, the ATX
output starts up in a defined way. 24V
starts up after T1 without fail.
+5VSB
T3
ATX output
AC
INV.
48V
24V
(15V)
24V
(15V)
AC
INV.
24V
(15V)
+
CB
-
DC
INV.
24V
(15V)
+
CB
-
T2
24V output
48V(30V) 1500W
Indefinable area
T1, T2, and T3 can be set optionally.
+
CB
+
CB
-
T1
AC100/240V
AC
INV.
ATX
DC
INV.
24V
Custom-made Ex.1
48V
PC
PC
Load
Device
If the AC power is interrupted, all
outputs will be covered by backup
operation. After the fixed time (T2),
however, 24V output will be shut to
prevent exhaustion of the battery and
the remaining power will be passed to
ATX output (PC).
After the fixed time (T3) to shut down
PC, ATX output gets shut.
(Detailed specification can be made
after consultation with the customer.)
(Fig. 4)
AC
INV.
ATX
DC
INV.
24V
Embedded
PC
Customization 2
This example shows that PC is
operated by ATX output, and 24V
output for mechanism system backs
up whole system while driving loads
such as sequencer.
CB
Control signal
48V
AC
INV.
24V
DC
INV.
24V
CB
CB
Switch BOX
Control signal
Control
AC power
PC
Load 1
Load 2
Load 3
(Fig. 3)
(Mi-PackⅡ Manager)
Sequential shutdown of 24V loads by optional board customization
AC_FAIL
DC
INV.
AC input
(85-264V)
Peripheral
devices
Intelligence battery package for GNSP is coming soon!
82(2U)
<Note> CB terminal shall be open.
ATX power supply
unit (520W Peak)
Signal
unit
DC input
(48V Batt)
Monitoring on PC
Monitoring freeze-up condition of specific PC, the power supply
can be rebooted automatically or remotely to unfreeze the PC
This function is standard for GNSP power supplies.
<At 1500W output>
Extension unit
GNSP3-750-242405 or
GNSP3-750-121205
<Note> 15V output model is coming soon.
- Temperature abnormality
- Calculation of life span
Lead bttery (48V 5AH)
Blackout
T1
Stop
Stop
T2
Stop
T3
Stop
T1, T2, and T3 can be set optionally.
Load 3
DC
INV.
Monitoring on
backup battery
condition
PC/Server
5. RS232C type optional board
24V 45A and ATX
(12V 90A)
48V
- Instantaneous power failure
/power failure detecting signal
- Power supply output
malfunction detection
- Internal temperature
malfunction detection
- Life expectancy of the
power supply
- Computer freezing detection
Load 2
+
CB
-
Equipped with completely insulated two-system DC
high power output (CH1, CH2) the outputs can be
ON-OFF controlled by external signal individually.
Multiple GNSP power supplies can be backed up by
external battery in common use.
For standard type, CH1 and CH2 output operate
synchronously with AC mains activation.
GNSP
GMX
Monitoring on
power supply
condition
Load 1
24V
(12V)
4. Independent two systems with high power
Load
AC
INV.
High power multiple outputs are on demand. (Fig. 2)
Load
+
CB
-
Load
24V
(12V)
3. ATX + 24V or 12V output
Load
ATX output
DC
INV.
All-in-one power supply
(GNSP/GMX) with micro server
installed gives everything heavy
machinery requires to power supply.
Load balancing terminals are equipped. (Fig.1)
<At 750W output>
48V
ATX
Remote monitoring
Monitoring
2. Flexible to maximize power
15V or 24V output is to be connected in series.
■ If large capacity of ATX power supply with 24V or 12V output is needed...
AC
INV.
Only with connecting to external 48V Lead battery,
you can get Not-stop and uninterruptible power
supply instead of UPS.
No limitation of battery capacity (AH)
New battery package, with the same dimension as
power supply, equipping intelligence function in
Ni-MH battery such as lifetime notice, scheduling, is
under development.
128
(3U)
Up to three power supplies can be connected in parallel.
Consult with us if larger power is needed.
<Note> We can also offer the power supply combined
with a battery package and installed into a 19-inch rack
(3U) as a backup system.
(Top side)
can be performed.
If large capacity of power supply with 30V or 48V output is needed...
(Fig. 1)
(Bottom side)
Monitoring, Communication, and
and Control
1. GNSP is Nonstop power supply
Load
DC
INV.
24V 90A (12V 180A)
Load
48V
+
CB
-
With a board installing device server,
Functions and Features
Sequence timing of rising and falling of CH1 and
CH2 can be set to customer's requirement by
exclusive micro computer that is installed. (Fig. 4)
Load of power output such as 24V can be shut
down sequentially by control of external FET switch
for effective use of backup time. (Fig. 5)
Also we have another board which provides
stabilized two (V1 and V2) DC small outputs (14.4W
max.) isolated each other.
With a board installing device server,
monitoring, communication, and control can be
performed. (See following page.)
Flexible to maximize power
24V
(12V)
7. Optional board built into device server
6. Customization of optional boards
82(W)×128(H)×235(W) AC
INV.
As network power supply
However, depending on loads for
mechanism system, some devices
may need no backup at all. On the
contrary, some devices such as
sequencer require backup in many
cases for specific time and total
management with PC may be
necessary.
Load1 - 3 can be shutdown
sequentially according to each
system after the control by signals
(ex. AC failure signal AC_FAIL)
delivered from GNSP for the specific
time (T1, T2, and T3) in the external
switch BOX.
(Fig. 5)
18
Application example: Power supply for ATM (Automatic Transaction Machine)
・Input specification: AC100V/200V, Prevention measures needed against harmonic current.
・Customer request specification
Output voltage
+5VSB +24VSB
18W
0.5A
18W
0.5A
Always-output
Continuous
(thermal average)
Max output
Control signal
+3.3V
4A
4.5A
+5V
+12V
10A
10A
16A
14A
Output by PS_ON
-12V
0.03A
0.03A
Application example: Power supply for Robot/Heavy machinery/Semiconductor
Equipment/Inspection machine
Example of system power supply considering mutual interlock
including blackout backup of power supplies used for each device
B+24V1 B+24V2 C+24V3 CP+24V4 Output capacity
11A
1.5A
2A
2.5A
650W
25A
2A
2A
15A
1000W
C signal CP signal
B signal ON
●Robot/Heavy machinery
Picking up robot
Nipron
Injection molding
machine
GNSP3-75024X05CH3 auxiliary output
+5VSB +12V +12V
Rated
1.5A 8.4W 6W
Cont. Thermal
Series
↓
connection
output average
24V 18W
of real road
0.5A
24V 18W
Peak
1.5A
Always-output
Control signal
Warning board backup
During backup
20W: 2 hours typ
operation
Output voltage
CH2 multi output
+3.3V
+5V
+12V
-12V
10A
20A
17A
0.3A
↓
↓
↓
↓
4A
10A
10A
0.03A
10A
20A
17A
0.3A
Output by PS_ON
Shutdown of ATX board (PC)
200W: 3 minits typ
↓
11A
25A
B1-SW
CH3 power output
Output capacity
+24V power output
15A (Peak 30A)
720W
↓
↓
↓
650W
1.5A
2A
2.5A
2A
2A
15A
1080W
B2-SW
C-SW
CP-SW
Robot/machine
tools
ATM
Inserter
Chip mounter
NC machine tools
●Semiconductor manufacturing/Inspection equipment
All outputs 650W, backup 2 minutes
GNSP3-750-24X05-□
CH1
Ashing device
~
Chopper
control circuit
Inverter
PFC
V1
Commutation
& smoothing
+24V
AC input side
Chopper
control circuit
Inverter
DC input side
Commutation
& smoothing
Cleaning
equipment
Test system
B+24V2
CH2
V2
Chopper circuit
Commutation
& smoothing
Chopper circuit
Commutation
& smoothing
Chopper circuit
Commutation
& smoothing
Regulator
CH3
+12V
+5V
V4 +3.3V
-V5 -12V
C-SW
C+24V3
CH1
V3
Batt
CP-SW
CP+24V4
~
Inverter
PFC
5VSB
Commutation
& smoothing
Regulator
This is an example of
high power system.
GNSP3-750 may be suitable
depending on application.
AC input side
V6
24VSB by series
connection
Regulator
Various inout/output signal
GPSA-360
Backup time
Time (min)
Commutation
& smoothing
GPSA-750
30
Motor
driver
M
Motor
driver
M
Motion
controller
+12VSB
Signal
circuit
Auxiliary power side
Various
input/output
signal
Switch unit
Sequencer
24V SW circuit board
20
Various
sensors
10
300
400 500
Load (W)
600
CH1
700
~
PFC
Inverter
Chopper
control circuit
V1 +24V
Commutation
& smoothing
Brake
unit
AC input side
Charging
circuit
Inverter
Lead battery package
BS19A-P48/5.0L
Add GPSA-360-24-TP
when enough 24V output
cannot be provided
(GNSP is also available)
48V
Lead
DC input side
Chopper
control circuit
Commutation
& smoothing
Chopper circuit
Commutation
& smoothing
Chopper circuit
Commutation
& smoothing
Chopper circuit
Commutation
& smoothing
V2
+12V
ATX board
+5V
+3.3V
V4
-12V
-V5
V3
CH3
GNSP3-750
-24X05-TRP
Inverter
Auxiliary power side
(Image)
Oil pressure
control
CH2
HDD
Regulator
5VSB
Device server
19
M
CH2
Inverter
0
200
Motor
driver
V7
Signal
circuit
Auxiliary power side
+24V or 30~48V
V1
Warning signal and control circuit
Inverter
Semiconductor
testing device
Appearance tester
B+24V1
B2-SW
Chopper
circuit
48V
Lead
B1-SW
Ethernet
Internet
HUB
See page 18 for explanation of functions of
monitoring, control, and communication.
20
Application example: Power supply for machines that use multiple PCs
Check sheet for power supply specification selection
When modification in GNSP/GMX series is required, fill out this sheet and send a copy to the address below by fax or e-mail with the copy attached
Occasionally one system uses three to five PCs such as robot. For example,
one PC is used for robot eye (CCD camera) and image processing, and
second PC is for censing or I/O, and, others may be used for communication
system or as upper server to manage information on whole robot system.
For the system like this, whole PCs must be totally controlled to manage
mutual interlock including start-up and shutdown procedure.
For that case, our GNSP model, GNSP3-750-242405-TRP (two 24V outputs
type) performs total management of power supplies in PC and main
uninterruptible power supply function when used as below. Also, with device
server which is one of optional boards equipped in this power supply, mutual
communication with remote places such as monitoring, control, and
communication can be proceeded via the network bringing considerable
advantage for remote maintenance.
To
FAX
E-mail
1
2. Battery
Power to three PCs and uninterruptible total control
using 24V control power supply and 24V medium BUS
PC loads (2-3 units)
DC 24V input with Non-insulated
ATX power supply
500
Time (min)
BS19A-P48/5.0L
48V
AC
INV.
Other 24V loads
24V
DC
INV.
24V
+5VSB
Line: Rein forced insulation
Line: Functional insulation
Battery pack
(Large capacity type)
Insulated DC-DC converter type
ATX power supply, PCFD-180P-X2S Input DC20V-36V
Output
+3.3V 10Amax
+5V 10Amax
+12V 0.3A
+5SB 1A
Confirmation of your specification
Input specification of the power supply is AC100/200V (85-264V, Worldwide input specification with PFC circuit).
<Standard product> BS19A-P48/5.0L(48V 5AH)
Lead
Prepare other battery pack at your (customer's) side.
(There is no limit about 48V capacity)
□Yes
Ni-HM (compatible type
of Lead battery)
<Under development> Ni-HM battery with "Mi-PackⅡ
Manager" (application software) - Life span calculation,
scheduling function, and communication are available.
□Would like Nipron to develop this product in hurry
□Consider the adoption of this product after being ready
(2) Battery pack type
□12V □15V □24V
□30V □48V □Others (__V)
Current (Continuous__A Peak__A__S)
1st output
□+3.3V (Continuous __A Peak __A) □Don't need
2nd output
(3) CH2 multi output
□+5V (Continuous __A Peak __A) □Don't need
3rd output
<Note> Able to choose output type from single output, 2 outputs, 3 outputs, and
□+12V (Continuous __A Peak __A) □Don't need
4th output
4 outputs. Continuous rated output power shall be 360W max, but able to take
□-12V (0.3A) □Don't need
continuous 450W typ max if CH1 outputs lower power.
Other outputs from □+24V (Continuous __A Peak __A) □Don't need
1st to 3rd output
□Other (__V Continuous __A Peak __A)
Do you need extension unit?
□Yes (Add __W) □No
□Yes □No
(2) CH1 power output - Voltage, continuous current, peak current, and peak output time
<Note> Continuous rated output power of CH1 shall be 360W max (peak 540W), but able to take continuous 450W typ
max if CH2 outputs lower power. Total continuous output power of CH1 and CH2 shall be 708W - 720W.
If yes, do you need battery backup
operation during power failure?
PC
PCUI series
Intermediate
Bus
24V output
360W
24V output
360W
PC loads (2-3 units)
□Yes □No
□Need □Don't need
□Yes □No
□Need □Don't need
□Need □Don't need
(4) Do you need functions as remote control, monitoring, abnormal notice, and so on?
<Note> Optional board with built-in device server (GB-DS) is required for controlling from a distance.
Functions (□Need □Don't need)
□Remote on/off □Power failure detection □Abnormal
power supply notice □Monitoring internal temperature
of the system □FAN rotating speed monitoring □Expectancy of life span □Abnormal notice by e-mail (Number of e-mail addresses: __)
Computer BOX
24V1
GNSP3-750-242405
DC-DC
Converter
(6) In order to use battery
capacity efficiently, do you need
sequentially disconnected
sequence of CH1 output load?
<Note> Customization of
optional board and external
switch are required.
AC100/240V
DC-DC
Converter
Motherboard
Computer BOX
24V4
DC-DC
Converter
Motherboard
Non-insulated
ATX power supply
<Features>
- Input filter: Large
- High efficiency:
90% min
BS19A-P48/5.0L
48V
Block diagram
Computer BOX
DC-DC
Converter
Motherboard
Motherboard
Battery pack
(Large capacity type)
AC
INV.
24V
DC
INV.
24V
+5VSB
Line: Rein forced insulation
Line: Functional insulation
Device server installed
Bidirectional Monitoring/
Control/Communication
from/to remote places
can be obtained using
optional board
5. System/others
Computer BOX
24V6
T1
AC power
Indefinite
area
PC
T1
Load 1
48V
Stop
Stop
Stop
T3 __ ~ __ (unit: __ )
T3
CB
CB
Load 3
T1 __ ~ __ (unit: __ )
T2 __ ~ __ (unit: __ )
T2
24V
DC
24V
INV.
Control signal
□Yes □No
Blackout
Load 2
AC
INV.
T3 __ ~ __ ms
T2
Stop
T1, T2, and T3 can be set optionally
Switch BOX
Control
Would you like to ask Nipron to make
external FET switch and PCB of the controller?
Notice function
Computer BOX
24V5
(CH2)
ATX output
(CH1)
24V output
Motherboard
Converter
DC-DC
Converter
T3
CB
T1 __ ~ __ ms
T2 __ ~ __ ms
AC_FAIL
Embedded PC
ATX
DC
24V
INV.
Control signal
Computer BOX
24V3
+5VSB
(7) Do you need these functions provided by management software Calculation/
Notice of the battery life span
"Mi-PackⅡ Manager"?
- Calculation/notice of the Ni-HM battery life span
Scheduling operation
- Scheduling operation
Motherboard
24V2 DC-DC
AC
24V
INV.
DC
24V
INV.
□Yes □No
Input current from
battery
Battery input
T1, T2, and T3 can be set optionally
AC
INV.
PC
SFX
mounting side
※If yes, use GNSP power supply.
If no, use GPSA/OZP/Other power supply.
(1) Do you need RS232C signal connector in order to shutdown PC at battery backup operation during power failure?
(2) Would you like to take another method that is different from (1) at backup operation Customize of the optional board
during power failure, for shutdown of each outputs and falling sequence? (Ex. Timer stop) Use the device server function
Automatic recovery by internal setting of the power supply
(3) Would you like to monitoring PC freezing and reset it?
<Note> Optional board with built-in device server (GB-DS) is required.
Remote recovery from a distance
Load 3
ATX (PS2)
mounting side
GNSP3-750-242405-TRP
Answer
□OK □NG
□Yes □No
□Use this product
Load 2
PC loads (2-3 units)
*Chassis and FAN also available (Model: PCFD-180P-X2S-SF)
FA PC (6 units)
21
E-mail
Load 1
Power to six PCs from one GNSP as
DC-UPS (750W/1080W peak,
uninterruptible) and uninterruptible
total control
If isolation
model is
required,
4. Optional function
(Note) Parallel operation of CH1 and CH2
Perfect balancing of Loads by connecting
current balancing terminals
Model name: PCUI-180P series
FAX
AC power
CH1 output
24V 15A continuous (Peak 22.5A 5 sec)
CH2 output (insulated perfectly from CH1)
24V 15A
+5VSB
DC-DC
Converter
TEL
(5) Do you need rising/falling sequence of CH1/CH2 outputs?
<Note> Customization of optional board is required. (Timer setting)
- If you don't need them, use standard RS232C board.
CH1/CH2 of standard product rises and falls in synchronization
with AC input.
GNSP3-750-242405-TRP
Battery(48V)
Contact info
600
700
Load (W)
Example of two 24V power supplies control power supplies of six PCs and conduct backup operation at blackout
AC100/240V
Department
(4) Extension unit (In case CH1 cannot provide enough power)
Mechatro type
Block Diagram
This unit is non-isolated ATX power
supply, but works without any problem in
parallel connection of several PCs as input
filter capacity is large.
10
400
24V output load
24V output
360W
SFX
mounting side
Non-insulated
ATX power supply
<Features>
- Input filter: Large
- High efficiency:
90% min
PCUI-180P-X2SF1
20
300
Name
Sequencer
Discharging characteristic of Battery backup
30
200
Intermediate
Bus
24V output
360W
PCUI series
PCUI-180P-X2SP1
0
GNSP3-750-242405-TRP
PC
3. Output
Under the circumstance of Non-stop power supply (uninterruptible
power), total power management (total monitoring and control) on
multiple PCs and mechanism system driven by 24V can be performed.
ATX (PS2)
mounting side
Input DC24V (21.6~26.4V)
Output
+3.3V 10Amax
+5V 10Amax
+12A 10Amax
-12V 0.3A
+5VSB 1A (Peak 2A)
Person in charge
(1) Auxiliary power supply (standby) output
V6 output (8.4W) □12V(0.7A) □15V(0.56A) □Others ( __V __A )
+5V (1.5A) is equipped as standby output of standard function. Do you need other voltage of standby output?
V7 output (6W)
□12V(0.5A) □15V(0.4A) □Others ( __V __A )
<Note> Except standard 5V standby output, 2 more standby outputs are available. (Use V6 and V7)
V6+V7
(in
series)
□24V(0.5A) □30V(0.4A) □Others ( __V __A )
*1 V6 and V7 are insulated and outputs in synchronization with 5VSB
*2 Output capacities of V6 and V7 are: V6+V7=14.4W max
□Don't need auxiliary power
GNSP3-750-242405-TRP
<<PCUI type ATX power supply as load of CH2>>
+81-6-6487-2212
[email protected]
Company name
(1) Do you need battery backup operation during power failure?
Example of three PCs and mechanism system (24V) are integrated
CH1 output
24V 15A continuous (Peak 22.5A 5 sec)
CH2 output (insulated perfectly from CH1)
24V 15A
+5VSB
Sales strategy group
Nipron Co., Ltd.
1-3-30, Nishinagasu-cho,
Amagasaki-city, Hyogo 660-0805, Japan
Tel: 81-6-6487-0611
□Yes □No
□Need (□calculation of battery life span □Notice) □Don't need
□Need □Don't need
□Need □Don't need
(8) Information such as alarm signal from the component,
which is not Nipron power supply and embedded in the same system, Unit names and signals you need
(Able to accept max 4 I/O signals)
needs to be transformed to a distance via device server unit?
1.
2.
3.
4.
(1) Would you like to ask Nipron to integrate some components into a case at Nipron side, such as extension power
supply unit, battery pack, and switch controller? <Note> Dimensions of the power supply cannot be changed.
□Yes □No
(2) Do you need customization of output cable?
□Yes □No
(3) If you have any further request, please let us know.
22
Here comes the thunderstorm season!
- Nonstop power supply will protect your system -
Differences from the UPS
Difference (2) High efficiency and Energy saving:
Nowadays, “DC power dispatching system” that dispatches electric power to
equipments in DC mode has become a topic as energy saving.
DC power dispatching system feeds power to equipments which operate with DC
input voltage (almost equipments including PCs, of course) so that efficiency can
be increased by decreasing the number of conversion from AC to DC to realize
energy saving. As with DC power dispatching system, our Nonstop power supply
can decrease the number of power conversion to PCs.
So to speak, “DC backup power supply.”
UPS (uninterruptible power supply system) is well
known as one of the measure for power failure.
Here are some differences between UPS and
Nipron’s nonstop power supply.
Categories of UPS
Nipron Nonstop power supply Featured
UPS is categorized mainly in two systems, one is standby power system
(line interactive power system) and the other is online power system.
[UPS (Online inverter system)]
[Standby power system (Line interactive system)]
Now we are in the rainy season again. Speaking of the rainy season, “THUNDERSTORM.” The most feared thing for systems is the loss of
confidence and trust from customers. The “blackout” generated by “thunderstorm” may crash the system in the worst case following its
abnormal system shutdown, which burdens vast amounts of money loss to customers.
Though we are supplied with stable power due to high technology of the power company nowadays, we still face “blackout” or “momentary
power failure” at switching of transmission grid, and “momentary blackout” that momentarily drops line voltage under natural hazard such as
thunderstorm.
“Blackout (AC power supply stop)” may occur due to cabling trouble, breaker trip, or wrong operation. That is why measures against power
failures must be secured for critical systems just in case. Responding to the case, we feature, this time, Nipron's “Nonstop power supply” in a
bid to guard customer’s critical system from power failures.
UPS
AC/DC
Input (AC)
Stable power supply without instantaneous blackout
Nipron’s original equipped with uninterruptible power system installing
power failure backup circuit inside. With a battery package connected,
the power supply can keep on providing stable power to loads without
any abnormity and fluctuation at input voltage problems such as
blackout, momentary power failure, and voltage drop.
Space saving
Nonstop power supply has no time loss to switch the
operation to battery at blackout as it compares the
voltage level between inverter voltages at AC side
and battery side for automatic transfer.
Thus it realizes uninterruptible
power supply with high reliability.
Principle of typical Nonstop power
supply is shown below.
[Battery pack]
Installable to 5-inch bay or
3.5 inch-bay in PC
Backup operation with battery
pack is possible at power failure
as blackout.
AC side
inverter
[Nonstop power supply]
eNSP3-450P-S20-H1V
AVR
+ ‐
Batt
At AC operation
The power supply has two gates (input) and two engines (converter), one for AC
side and the other for battery side, and completely isolated each other. Two
inputs from AC side and battery side are connected at a time to one high
frequency transformer. This is called 2 (two) gates and 2 (two) engines method
(parallel converters) - Our patent circuit.
Power to load is provided from AC side normally. Once input voltage drop or
power stop (blackout) occurs at AC side, the power is provided from battery side
to compensate this situation. Accordingly, uninterruptible power environment is
provided to secondary outputs so that no damage to computer system is given to
secure continuous operation.
At AC power failure
Faucet
AC power failure
Backflow valve (Diode)
Backflow valve (Diode)
Start water supply
Water tank for emergency
(Battery)
(Capacitor at secondary side)
23
At power failure
Standby power system normally outputs commercial alternating current as it is,
and switches to battery power when blackout is detected or input voltage drops.
For this reason, switching time loss is inevitable at system switching. On the
other hand, for online power system, AVR (automatic voltage regulator) is added
to standby power system to cover wider input voltage range than standby power
system. There might cause some problems with equipments connected as
output waveform of both systems at battery operation are usually pseudo-sine
waves (square wave.)
Also, wave distortion of waveform of supply mains (input) leads UPS to judge
blackout wrongly in many cases so that the system is switched to battery
operation causing system shutdown. (In particular, switching mode equipments
such as inverters used in railways generates wave distortion.)
Input (AC)
AC/DC
Output (AC)
DC/AC
Battery
At normal operation
At power failure
Online inverter system provides alternating current via inverter whether supply
mains is normal or blackout. For this reason, switching time to battery operation
is zero securing continuous output power.
Output waveform is usually sine wave and the circuit is costly complicated.
However, in the case that the system is used under severe supply mains
change, or stable output voltage is required for equipments connected, online
power system should be selected for UPS.
[Nonstop PSU (Representative system)]
PC system
Nonstop PSU
Conv.1
AC
DC
CPU etc.
DC
The number of
power conversion: 1
Battery
At normal operation, UPS conducts power conversion two times inside UPS.
Additionally power conversion is conducted once in PC. Therefore the number of
conversion becomes three times in total. Also, two conversions are processed at
blackout in total. On the other hand, Nonstop power supply conducts only one
conversion regardless of input voltage condition, normal or blackout remaining
without lowering efficiency, resulting in energy saving in comparison with UPS.
Moreover, as UPS and PC power supply is connected in series, when AC cable
connecting UPS and PC power supply comes off accidentally, power to PC
system is lost leading to most dangerous shutdown.
While, for Nonstop power supply, as the circuit is connected in parallel and also a
battery is installed inside PC, this kind dangerous situation never happens and it
gives advantage of Nonstop power supply over UPS in reliability as well.
Waterwheel
(Load)
Stable operation
Water tank for regular use
(Capacitor at primary side)
When the water tank
for regular use
become empty
(low-water stage),
supply from the
emergency tank will
start.
Let's compare the actual differences between the number of power conversions.
Suppose 85% efficiency for UPS, 75% for PC power supply, and also 75% for
Nonstop power supply. Total efficiency for the system connected with UPS would
be 64% (0.85 times 0.75) which is 11% lower than Nonstop power supply.
[UPS (Online inverter system)]
UPS (Online inverter system)
Differences between Nonstop power supply and UPS
Efficiency 85%
What is the difference between Nonstop power supply and UPS?
Here are the answers compared with online inverter system UPS.
(Because nonstop power supply is also high reliability power supply
that can be operate stably without instantaneous power failure.)
(Capacitor at
secondary side)
CPU etc.
PC system
Nonstop power supply
Efficiency 75%
CPU etc.
Battery
[Battery pack]
Installable to
5-inch bay or
3.5 inch-bay
in PC
Total efficiency approx 75%
In case of 24-hour continuous operation with PC load capacity 300W
Water tank for emergency
(Battery)
UPS connected
Nonstop PSU
Tank for waterwheel
Efficiency 75%
Total efficiency approx 64%
For Nonstop power supply, battery package for backup is able to be
installed to 5-inch bay or 3.5-inch bay in PC (in the chassis) so that
Nonstop power supply brings space saving unlike UPS which needs to
be mounted outside.
[Nonstop
power supply]
PC system
PC power supply
[Nonstop PSU (Representative system)]
Difference (1) Space saving:
Become empty
(low-water stage)
Store
Water tank for regular use
Tank for waterwheel
CPU etc.
At normal operation
Battery
UPS
No power failure at secondary
side by inputting both AC and
DC at same time even if the
blackout or the instantaneous
blackout happens.
BATT side
inverter
DC
Battery
Charger
Battery input
AC
Output (AC)
[Online inverter system]
Compared with flow of water, Nonstop power supply consists of regular-use tank for AC input and emergency use tank for battery input. The water
level of the secondary is always kept constant as the water is always supplied from the tank with higher pressure. The principle can be explained in
this way.
(Capacitor at primary side)
Switch
Conv.3
AC
The number of power conversion: Total 3
Secondary
side circuit
Comparing with flow of water:
Faucet
DC/AC
DC
Difference of efficiency and space saving
[Battery pack]
BS10A-H24/2.0L
Clamp to prevent AC
power cable coming off.
ACC2734(PS2734)
PSU
Insulation transformer
AC input
For Nonstop power supply, battery package for backup is able to be installed to
5-inch bay or 3.5-inch bay in PC (in the chassis) so that Nonstop power supply
brings space saving unlike UPS which needs to be mounted outside.
[Nonstop power supply]
Backup function at
power failure is built in.
PC
PC power supply
Conv.1 Conv.2
AC
Line interactive system
Nonstop power supply is...
PC system
UPS (Online inverter system)
Waterwheel
(Load)
Stable operation
[UPS]
Needs external space to install.
Space saving
to be installable
inside of the PC
Efficiency
Load
capacity
Input
capacity
64%
300W
75%
300W
Electric bills
(/year)
CO2
emission
469W
82,125 yen
1,552kg
400W
70,080 yen
1,325kg
(*1) 20 yen/kWh conversion (*2) 0.378 kgCO2/kWh conversion
Compared the efficiency with above data, nonstop power supply can reduce;
Electric bills approx 12,045 yen/year, and CO2 emission approx 227 kg/year.
24
Difference (3) Cost;
Categories of Nonstop power supply system
Monitor screen (Time setting)
Cost differences between UPS connection and Nonstop power supply
connection is shown below. (However, standard price for the power supply mentioned
below do not include output harnesses.)
[UPS (Online inverter system)]
PC system
PC power supply
[ePCSA-500P-X2S]
Continuous 350W/
Peak 500W
UPS(Online inverter system)
500W/750VA Class
Backup time: Approx. 5 minutes
with rated load
The time to judge
that recovery is
impossible after a
blackout can be set
up in second.
Shutdown delay time,
after it is judged that
recover is impossible,
can be set up in
second.
CPU etc.
Standard price: Around 22,850 yen
Set price: Around 100,000 yen
With the efficiency of PC power supply
considered, UPS with the output power
Total: Around 122,850 yen
equal to 500W or more has been selected.
[Nonstop PSU (Representative system)]
Specific program in
"exe" and "bat" can be
set up to operate at
the moment is judged
that recovery is
impossible.
PC system
Nonstop PSU
[eNSP3-450P-S20-H1V]
Continuous 350W/
Peak 450W
CPU etc.
Nonstop power supply is categorized as following table according to its backup time or use.
Nonstop power supply system
2G-2E system
AC side
inverter
+Batt-
Software: NSP Pro 2
Multi-output PSU
Isolation transformer
AC input
AC side
inverter
It allows to set up the
frequency, time, and the
number of beep noise at
blackout, recovery, and
the start of shutdown.
(In addition, this comparison is on a basis of catalog price, not actual sales price. Also, as the
price of UPS depends on manufacturers, take this comparison just as a guideline.)
Automatic shutdown available
It allows to set up
whether to display a
message at blackout,
recovery, and the start of
shutdown.
Blackout occurs
Connect Nonstop power supply and PC
with RS232C cable [WH2601-02] (PS2601-02)
(Some models allow USB communication.)
Backup time*
20
Time (min)
Battery pack
Battery pack
(BS10A-H24/2.0L)
10
250
300
Load (W)
* Backup time when battery package BS10A-H24/2.0L is in use.
(Backup time varies on models of battery package.)
* Backup time is just a reference at first use, not guaranteed.
* Time till output shutdown from occurrence of blackout
[DC startup available]
NSP2-250-D2S
NSP2-250-F2S
cNSP-250-D4S
vNSP-300P-X4S
[DC startup unavailable]
In this system, battery is connected to secondary line.
For ATX output (multi outputs), as outputs are delivered via DC-DC conversion after
AC-DC conversion, the efficiency is lower than 2G-2E system. However, this system keeps
almost the same efficiency as 2G-2E level as a result by improving the efficiency of DC-DC
converter applying synchronous rectifying circuit.
Also, the efficiency at DC input (battery) operation is the same as the efficiency of DC-DC
converter (90% or more) resulting in longer backup time than 2G-2E system.
For single output power supply, output is delivered via DC-DC converter (booster circuit)
with charger circuit installed in battery package side.
Additionally, isolation between DC input and DC output is unavailable.
Besides, this model is designed only for backup at blackout (Startup with DC input is
unacceptable.)
NSP6F-220P-S10
PCFL-180P-X2S2
PCFD-180P-X2S
OZP-120 24V series
OZP-170 24V series
GPSA-360 24V series
GPSA-750 24V series
Charger
DC/DC
Primary side backup system
In this system, capacitor package shall be connected (or extended) to primary rectifying
eNSP4-500P series
capacitor.
Backup time is shorter (approx. 1 sec with 180W load) than battery and this system is the
best way at momentary blackout.
Moreover, due to quick charging, this system can handle the environment where
momentary blackout frequents
Isolation transformer
AC input
Secondary side
circuit
AC side
inverter
Condenser Pack
Secondary side
circuit
Power shutdown
Power shutdown
Blackout recovery
monitoring time
Shutdown
delay time
1 second or more
1 second or more*1
Adjustable in second order Adjustable in second order
2G-2E system (DC startup unavailable,Common GND between Battery-DC output)
eNSP3-450P-S20 series
2 minutes or more
Approx 30 seconds
Adjustable in minute order
(fixed)
Ignoring time at blackout
Date saving time
Shutdown
ATX
Log output (13 kinds of logs are selectable)
Reboot at blackout recovery
System re-boot or not can be specified in the case that supply mains has been
recovered during shutdown delay time.
Ignoring time at initial blackout
If blackout detection within a specific time is not desired after the start of Nonstop
power supply monitoring service, the time can be specified in second order.
Voice notice is available when abnormality occurs.
Conjunction with user application is available with communication interface installed.
Summary
Nonstop power supply achieves high efficiency by minimizing the
number of power conversion to one allowing reduction of electricity
cost and CO2 emission. In addition, you could gain a lot of merits
such as higher reliability, space saving, and system introduction cost
saving with Nonstop power supply implementation.
For models, many are lined up as shown in the following pages
including batteries such as Lead-acid battery, Ni-MH battery to
choose from.
Pick up our Nonstop power supply for your critical system protection
from power failures.
Output connector (Optional)
Main
(20pin)
Main
(24pin)
12V
(4pin)
12V
(8pin)
5
PCI-E
(6pin)
S-ATA
1
Medical standard compliant
high-powered Nonstop power supply
Safety standard
UL
Continuous
350W
Peak
CSA
EN
CE
Applicable battery pack
BS11A-P24/2.3L(K) 5 inch bay fixed type, Lead-acid battery
RBS02A-P24/2.3L(K) 5 inch bay removable type,Lead-acid battery
BS12A-P24/5.0L
5 inch bay double unit fixed type,Lead-acid high capacity battery
BS10A-H24/2.0L
5 inch bay fixed type,Ni-MH battery
BS22A-H24/2.0L
eNSP-300P series
Output connector -S20
With RS232C signal unit
With USB signal unit
ATX
Continuous
203W
Peak
303W
-*20-11S
-*20-16S
With RS232C signal unit
With USB signal unit
Applicable battery pack
BS05A-P24/2.2L(K) 5 inch bay fixed type, Lead-acid battery
RBS01A-P24/2.2L(K) 5 inch bay removable type,Lead-acid battery
BS06A-H24/2.5L
5 inch bay fixed type,Ni-MH battery
BS06B-H24/2.5L
(20pin)
(4pin)
12V
AUX
5
Main
12V
12V
3
Main
2.5A
0A
1
-1*S
-L20
-1*S
Safety standard
UL
(20+4pin)
(4pin)
(8pin)
S-ATA
1
4
CSA
EN
CE
Output connector
Main
(20pin)
Safety standard
ATX
Continuous
202W
Applicable battery pack
BP03A-H16/2.5L
3.5 inch bay size,Ni-MH battery
3.5 inch bay fixed type,Ni-MH battery
BS03A-H16/2.5L
UL
CSA
12V
(4pin)
AUX
EN
85-264V (Worldwide input)
AC input
Output voltage +3.3V
+5V
+12V
14A
21A
10A
Max
current/power 125W max
185W
max
(Continuous)
202.1W max*
Min current
0A
1A
0A
W×H×D(mm) 150×86×140 PS/2 size
*Shall be 100W max during backup operation
Applicable battery pack
BS11A-P24/2.3L(K) 5 inch bay fixed type, Lead-acid battery
RBS02A-P24/2.3L(K) 5 inch bay removable type,Lead-acid battery
5 inch bay double unit fixed type,Lead-acid high capacity battery
BS12A-P24/5.0L
BS10A-H24/2.0L
5 inch bay fixed type,Ni-MH battery
BS22A-H24/2.0L
5
12V
(8pin)
CE
CCC
+5VSB
2.5A
(6pin)
S-ATA
1
UL
CSA
EN
CE
CCC
-12V
20A
22A
22A
0.5A
160W max
285W max
301W max
30A
33A
30A
0.5A
Peak
max
current/power 200W
432W max
(Within 5s)
450.5W max
0A
0A
0A
0A
Min current
W×H×D(mm) 150×86×140 PS/2 size
+5VSB
2A
Output connector
Main
-S20
(20pin)
Main
-S21
(24pin)
2.5A
0A
12V
5
1
12V
3
S-ATA
(4pin)
(4pin)
1
2
Safety standard
UL
CSA
EN
CE
CCC
ATX
90-132V, 180-264V (Switching system)
AC input
Output voltage +3.3V +5V +12V - 5V -12V +5VSB
Continuous
14A
21A
10A
0.8A
1.5A
0.3A
203W
Max
max
Peak
current/power 125W185W
max
251W
(Continuous)
203.6W max
0.3A
20A
25A
13A
2A
0.8A
Applicable battery pack(-S20)
Peak
155W/35A max
BS05A-P24/2.2L(K) 5 inch bay fixed type, Lead-acid battery current/power
230W max
RBS01A-P24/2.2L(K) 5 inch bay removable type,Lead-acid battery (Within 5s)
251.1W max
BS06A-H24/2.5L
0A
2A
0A
0A
0A
0A
5 inch bay fixed type,Ni-MH battery Min current
BS06B-H24/2.5L
W×H×D(mm) 150×86×140 PS/2 size
2G-2E system
(DC startup unavailable,Isolated Battery between GND)
*Out of safety standard
Applicable battery pack
BS05A-P24/2.2L(K) 5 inch bay fixed type, Lead-acid battery
RBS01A-P24/2.2L(K) 5 inch bay removable type,Lead-acid battery
BS06A-H24/2.5L*
5 inch bay fixed type,Ni-MH battery
BS06B-H24/2.5L*
NSP3-150-F2S
With +24V Output
Nonstop power supply
Multi
Safety standard
Continuous
152W
0A
5
PCI-E
1
-12V
0.8A
0A
Safety standard
aNSP3-250P series
Low cost type Nonstop power supply
with input selection SW
Applicable battery pack(-S21)
BS11A-P24/2.3L
5 inch bay fixed type, Lead-acid battery
RBS02A-P24/2.3L
5 inch bay removable type,Lead-acid battery
5 inch bay double unit fixed type,Lead-acid battery
BS12A-P24/5.0L
eNSP3-200-S10-H1
12V
(4pin)
Max
current/power
(Continuous)
With RS232C signal unit
With USB signal unit
CCC
AC input
85-264V (Worldwide input)
-12V +5VSB
Output voltage +3.3V +5V +12V -5V
14A
21A
10A
0.8A 1.5A
0.3A
Max
125W max
current/power
185W max
(Continuous)
203.6W max
0.3A
30A
15A
0.8A 2.5A
28A
Peak
180W max
current/power
280W max
(Within 5s)
303.6W max
0A
1A
0A
0A
0A
Min current
0A
W×H×D(mm) 150×86×155 PS/2 mounting size
Nonstop power supply
with 3.5 inch battery pack
450W
-H7V
-H6V
Main
(24pin)
85-264V (Worldwide input)
AC input
Output voltage +3.3V
+5V
+12V
Peak
+5VSB
2A
Max
current/power
(Continuous)
Nonstop power supply
with Removable backup function
Continuous
301W
-12V
20A
22A
22A
0.5A
160W max
334W max
350W max
30A
33A
30A
0.5A
Peak
max
current/power 200W
432W max
(Within 5s)
450.5W max
0A
0A
0A
0A
Min current
W×H×D(mm) 150×86×140 PS/2 size
-H1V
-H6V
Main
4
ATX
CCC*
*CCC compliant product: eNSP3-450P-C20 series
85-264V (Worldwide input)
AC input
Output voltage +3.3V
+5V
+12V
Output connector (Optional)
(20pin)
4
*1 Approx 1s
without application entry
Other features
mNSP3-450P-S20 series
0A as min load current for all outputs,
high-powered Nonstop power supply
450W
Windows
UPS service
- Advanced time setting (blackout recovery
monitoring time, etc.) that Windows standard
UPS service does not cover is available.
- Visible and easy setting by GUI
25
Shutdown start
AC operation Blackout
NSP Pro 2
200
Single output PSU
Isolation transformer
AC input
AC side
Secondary side
circuit
inverter
Adopted model
[DC startup unavailable]
eNSP3-450P-S20 series
mNSP3-450P-S20 series
eNSP-300P series
aNSP3-250P series
eNSP3-200-S10-H1
NSP3-150-F2S
GNSP3-750 series
Product lineup of Nonstop power supply
[Shutdown sequence]
Model: NSP Pro 2
150
DC/DC
Charger
It allows to change the
content of the message
delivered at blackout,
recovery, and the start of
shutdown.
Automatic shutdown software
100
DC/DC
*BS17A: Charger is also included
inside of the battery pack.
It allows to set up
whether to deliver a noise
at blackout, recovery, and
the start of shutdown.
In comparison with the condition above, 70,000 yen or more cost reduction
can be achieved for Nonstop power supply than UPS introduction.
0
Secondary side
circuit
Battery pack
Standard price: Around 7,500 yen
OS specification:
Windows 2000/XP/Vista/7
Secondary side
circuit
DC side
inverter
Secondary side backup system
Monitor screen (Condition setting)
Total: Around 49,200 yen
With automatic shutdown software "NSP Pro 2” installed, critical
data and the system can be protected from power failures such as
unexpected blackout, voltage fluctuation, in conjunction with
Nonstop power supply.
Supply mains status signals sent to serial port (COM port) via
RS-232C from Nonstop power supply are monitored, and non-stop
system operation for a short period of time is provided with
blackout confirmation timer. And for blackout for a long period of
time, Windows is automatically shut down by automatic shutdown
function to shut down the system in safety.
(*)Some models allow USB communication. (OS standard UPS
service for Windows2000/XP may be utilized, but time setting in
detail is not available.)
Secondary side
circuit
Charger
DC input
(Battery pack)
Standard price: Around 31,850 yen
Standard price: Around 9,850 yen
Isolation transformer
AC input
Battery pack[BS12A-P24/5.0L]
Backup time: About 5 min (at 350W load)
Features
Our original circuit (Patented) has 2 (two) inputs (gates) for AC and DC for each and 2
(two) converters (engines) realizing parallel converter system to receive both AC and DC
for one high frequency transformer. We call this system 2G-2E (2 gates-2 engines) circuit.
Its feature brings you compact, lightweight and high efficiency due to one transformer
which handles AC input, DC input, and DC output.
Also, several models have its GND of DC input (battery) isolated so that operation without
affection by noise can be achieved even though multiple equipments are connected to one
battery.
In addition, Nonstop power supply with 2G-2E system have two categories. One is for only
backup purpose at blackout (startup with DC input is unavailable.), and the other for both
AC + DC input (startup with single DC input is available.) Both categories are lined up.
Output connector
Main
(20pin)
5
1
UL
CSA
EN
85-264V (Worldwide input)
AC input
Output voltage +5V
+12V
+24V
Maxcurrent/power
(Continuous)
20A
5A
2A
152W max
Min current
1.5A
0A
0A
W×H×D(mm) 150×86×140 PS/2 size
CE
CCC
-12V
0.5A
+5VSB
1A
0A
0A
26
Product lineup of Nonstop power supply
Battery packages
BS05A-P24/2.2L(K)
BS11A-P24/2.3L(K)
2G-2E system (DC startup available, Battery-GND isolated)
GNSP3-750 series
With installing device server optional board,
24V+ATX
12V+ATX
Connectors for ATX output (Optional)
24V+24V 12V+12V 24V+12V
Single ATX
Continuous Continuous
360W 348W
Peak
Peak
540W 527W
UL
CSA
EN
CE
CCC
Applicable battery pack
BS19A-P48/5.0L
4U/3U size fixed type, Lead-acid battery
Safety standard
85-264V (Worldwide input)
GNSP3-750Model name GNSP3-750242405-TRP
121205-TRP
Output voltage +24V +24V +5VSB +12V +12V +5VSB
Max
15A 15A 1.5A 30A 30A 1.5A
current/power
(Continuous)
727.5W max
727.5W max
Peak
22.5A 22.5A 1.5A 45A 45A 1.5A
current/power
1087.5W max
1087.5W max
(Within 5s)
Min current
0A 0A 0A 0A 0A 0A
W × H × D (mm) 82 × 128 × 235 (2U wide/3U high)
GNSP3-750241205-TRP
+24V +12V +5VSB
15A 30A 1.5A
727.5W max
22.5A 45A 1.5A
1087.5W max
0A 0A 0A
Main
Main
(20pin)
(24pin)
Lead
12V
12V
(4pin)
(8pin)
5
PCI-E
(6pin)
Output connectors
ATX
Continuous
230W
40A
0.3A
30A
527.5W max
1067.5W max
Min current
0A
0A
0A
0A
0A
W × H × D (mm) 82 × 128 × 235 (2U wide/3U high)
20A
1.5A
708.1W max
40A
0.3A
30A
527.5W max
1067.5W max
Min current
0A
0A
0A
0A
0A
W × H × D (mm) 82 × 128 × 235 (2U wide/3U high)
45A
Peak
current/power
(Within 5s)
0A
20A
Applicable battery pack
BS05A-P24/2.2L(K) 5 inch bay fixed type, Lead-acid battery
RBS01A-P24/2.2L(K) 5 inch bay removable type, Lead-acid battery
BS06A-H24/2.5L*
5 inch bay fixed type, Ni-MH battery
BS06B-H24/2.5L*
*Shall be out of safety standard.
UL
CSA
EN
85-264V (Worldwide input)
AC input
24V (20-32V)
DC input
+12V
Output voltage +3.3V +5V
0A
Peak
255W
10A
23A
12A
133W max
217W max
230.5W max
Min current
0A
1.5A
0A
0A
W × H × D (mm) 150 × 86 × 140 PS/2 size
Max
current/power
(Continuous)
0A
0A
cNSP-250-D4S
Applicable battery pack
BS05A-P24/2.2L(K) 5 inch bay fixed type, Lead-acid battery
RBS01A-P24/2.2L(K) 5 inch bay removable type, Lead-acid battery
BS06A-H24/2.5L
5 inch bay fixed type, Ni-MH battery
BS06B-H24/2.5L
Peak
current/power
(Within 10s)
Min current
W × H × D (mm)
vNSP-300P-X4S
Nonstop power supply for Compact PCI
Nonstop power supply
for VMEbus
Applicable battery pack
BS19A-P48/5.0L*1 4U/3U size fixed type, Lead-acid battery
PS2866*2
Ni-MH battery with 6U10HP size VME rack type
cPCI
Continuous
250W
UL
CSA
EN
Continuous
250W
Peak
current/power
(Within 10s)
Peak
300W
0A
Min current
W × H × D (mm)
UL
CSA
EN
17A
40A
40A max
7A
300W max
0A
2A
0A
50.4 × 261.9 × 175.6
Main
0.5A
1A
0A
0A
Safety standard
12V
3
1
S-ATA
SFX
Continuous
160W
Peak
220W
Applicable battery pack
BP03A-H16/2.5L
3.5 inch bay size, Ni-MH battery
BS03A-H16/2.5L
3.5 inch bay fixed type, Ni-MH battery
Max
current/power
(Continuous)
Peak
current/power
(Within 5s)
Peak
A case with SFX mounting surface is
also available. Please ask us for detail.
Applicable battery pack
BS17A-H24/2.0L
3.5 inch bay fixed type, Ni-MH battery
GPSA-360 series
GPSA-750 series
Output connectors
(Optional)
Safety standard
DC input
at forced
air cooling*2
(With external fan)
Peak
current/power
(Within 5s)
600W
Continuous
720W
Peak(max)
1200W
Applicable battery pack
BS14A-H24/2.5L
1U/3U size fixed type, Ni-MH battery
UL
Main
(20pin)
CSA
Main
(24pin)
5
1.8A
0A
1
S-ATA
4
EN
10A
CE
CCC
10A
10A
0.3A
1.5A
Within output power cross regulation*1 (105W max)
10A
10A
15A
0.3A
1.8A
Within output power cross regulation*1 (180W max)
Min current
0A
0A
W × H × D (mm) 93 × 55 × 160
0A
Safety standard*
UL
CSA
EN
0A
0A
CE
CCC
*Acquired model: GPSA-360-24-TP (Other models are scheduled to be acquired.)
AC input
Model name
Continuous
Peak (5s)
[AC 100V]
Peak (5s)
[AC 200V]
Min current
W × H × D (mm)
85-264V (Worldwide input)
GPSA-36024-TP
+12VSB
+24V
0.3A
15A
3.6W
360W
0.3A
20.8A
3.6W
499.2W
25A
0.3A
3.6W
600W
0A
0A
41 × 128 × 230
(1U wide/3U high)
90W
Peak
20-36V
*Please refer to the specification data sheet for more detail.
27
+5VSB
1.5A
*1 Please refer to the specification for detail.
*2 At forced air cooling, airflow of the component side shall be 0.5m3/min or more.
Output current/
Output power
Peak(max)
-12V
0.3A
Output voltage +3.3V
+5V
+12V
-12V
+5VSB
10A
10A
7.5A
0.3A
1A
at natural
air cooling
60W max
(Basic structure)
Within output power cross regulation*1 (90W max)
at natural
10A
10A
8.5A
0.3A
1A
air cooling
70W max
(With special Al
heat sink)
Within output power cross regulation*1 (102W max)
Output voltage
360W
CCC
Models with medical standard acquired are “mGPSA-360 and mGPSA-750”
(mGPSA-750: during preparation).
(GPSA series are medical standard complied product.)
Medical standard also compliant,
single output power supply
with 12VSB output
Continuous
10A
0
200
50
100
150
Load (W)
UL
5" bay
Ni-MH
EN
Backup time*
20
10
150
200
250
Load (W)
300
3.5" bay
Lead
20
10
0
20 30
350
BS19A-P48/5.0L
30
40 50 60 70
Load (W)
100
150
200
250
Load (W)
300
BS13A-EC400/422F
1U/3U
Ni-MH
0
80 90
BS14A-H24/2.5L
3U/4U
10
Capacitor
5" bay
BP03A-H16/2.5L
BS06B-H24/2.5L
(With FAN)
Backup time* (*)
Backup time*
20
10
50
100
150
Load (W)
200
CCC
20
10
0
60
80
100 120 140 160
Load(W)
(*) When used with NSP6F-220P-S10
0A
0A
Backup time*
Backup time*
30
30
30
40
20
10
0
200
300
400 500 600
Load (W)
700
2
30
20
10
0
70
90
110 130
Load (W)
150
1
0 100
170
150
200 250
Load (W)
300
350
*The backup time is only for reference at initial use, NOT guaranteed.
*Line charts shows time length from blackout to power supply shutdown.
Display battery
Life span & Condition! Schedule operation available!
Blackout
5 inch bay battery
Blackout
Intelligence Battery Pack "Mi-Pack II Manager" Server's automatic operation is possible!
S-ATA
Battery pack
BS22A-H24/2.0L
4
CSA
Backup time*
30
0100
200
BS03A-H16/2.5L
BP03A-H16/2.5L
Backup time*
0.5A
Main
85-264V (Worldwide input)
+3.3V
+5V
+12V
10A
10A
7.5A
at natural
air cooling
60W max
GPS A-75024-TP
+24V
+12VSB
30A
0.3A
720W
3.6W
40A
0.3A
900W
3.6W
80A
0.3A
3.6W
1200W
0A
0A
82 × 128 × 235
(2U wide/3U high)
180W
CE
CCC
-12V
0.3A
+5VSB
1.5A
PSU with BATT
Nonstop power supply
eNSP3-450P-S20-H*V
Application software
Mi-Pack II Manager
Adoption example
TOSHIBA server
MAGNIA LiTE41SE
URL:www.magnia.toshiba.co.jp
Within output power cross regulation*1 (90W max)
at natural
air cooling
(With special Al
heat sink)
at forced
air cooling*2
10A
10A
70W max
8.5A
0.3A
1.5A
Within output power cross regulation*1 (102W max)
10A
10A
10A
0.3A
1.5A
Calculation
Within output power cross regulation*1 (105W max)
(With external fan)
Peak
current/power
(Within 5s)
A case with SFX mounting surface is
also available. Please ask us for detail.
Applicable battery pack
BS17A-H24/2.0L
3.5 inch bay fixed type, Ni-MH battery
(Basic structure)
10A
10A
15A
0.3A
2A
0A
0A
0A
Life span based on changes of features
*1 Please refer to the specification for detail.
*2 At forced air cooling, airflow of the component side shall be 0.5m3/min or more.
OZP-120 24V series
OZP-170 24V series
120W
Peak
216W
a. Changes of inner resistance
b. Changes of unbalance voltage when discharging
Notice
When difference between
default value and present value
exceeds the fixed value
E-mail is delivered to max 5
addresses.
Using dedicated control software (Mi-Pack II Manager) enable to manage schedules in the PC
(automatic start-up/shutdown). Not just specific date, you can also setup the schedule per week.
That means, for example, daily start-up/shutdown operation at the work place as personal office
if setting schedule by fixed day/time. Automatic operation is also available for production line,
monitoring system, and others.
E-mail information
Life span based on use frequency and total time
Nonstop function mounted to the
general purpose power supply
Continuous
Judgment
Within output power cross regulation*1 (180W max)
Min current
0A
0A
W × H × D (mm) 93 × 55 × 160
Continuous
CSA
EN
CE
Natural air
cooling
Forced air
cooling
Peak
current/power
(Within 5s)
Peak
300W
Min current
W × H × D (mm)
Primary side backup system
eNSP4-500P series
The best choice for instantaneous
power failure measure.
Capacitor backup power supply
OZP-170-24-*B*
+24V
5A
7A
120W
168W
6.3A
8.8A
151.2W
211.2W
9A
12.5A
300W
216W
0A
0A
73 × 35 × 180 (Board type)
73 × 40 × 222 (Board type)
83.8 × 45 × 210 (W/ chassis and cover) 83.8 × 51 × 252 (W/ chassis and cover)
(intended to backup at instantaneous
power failure by electrolytic capacitor)
c. Depth of cycle discharge
d. Total discharge capacity and depth of discharge
e. Ambient temperature
f . Total time after the start of using
Among the values gained by c
through f, the one with the smallest
value is mainly used to display the
remaining time.
When the lifetime expires, an alarm is
delivered and can be monitored as
event information.
Announce via e-mail through the Internet
Gives notice for battery's life span, so periodical replacement
of the battery pack will not be needed. It may possibly be used for
more than 7 years without battery replacement.
- Start/stop monitoring
- Blackout/recovery occurred
- Battery voltage decreased
- Operate blackout shutdown
- Application registration
- Application start up failure
- Operate schedule shutdown
- Life span based on time after the start of using
- Life span based on total discharge capacity
- Life span based on ambient temperature
Main
(20pin)
Main
(24pin)
12V
(4pin)
12V
(8pin)
PCI-E
(6pin)
5
S-ATA
1
4
Safety standard
UL
CSA
EN
85-264V (Worldwide input)
AC input
Output voltage +3.3V
+5V
+12V
CE
CCC
OS specification
Monitor screen structure and operation (monitor)
Remaining
capacity
-12V
0.5A
+5VSB
2A
Max
current/power
(Continuous)
2.5A
0A
Remaining
life span
Daily
data
Weekly
data
Error message
display box
Log display
- Life span based on depth of cycle discharge
- Battery voltage difference prediction
- Inner resistance life span prediction
- Power supply fan abnormality/recovery
- Discharging current abnormality/recovery
- Battery pack fan abnormality/recovery
- Battery voltage rise abnormality/recovery
- Battery voltage decline abnormality/recovery
- Battery temperature rise abnormality/recovery
- Charging current abnormality
Monitor screen structure and operation (Scheduling)
Output connectors (Optional)
20A
22A
22A
160W max
334W max
Continuous
350W max
350W
30A
33A
30A
0.5A
Peak
200W max
Peak
current/power
482W max
500W
(Within 5s)
500.5W max
Applicable capacitor packages
Min current
0A
0A
0A
0A
BS13A-EC400/422F 5 inch bay fixed type, capcitor packages W × H × D (mm) 150 × 86 × 140 PS/2 size
ATX
CCC
85-264V (Worldwide input)
AC input
OZP-120-24-*B*
Model name
+24V
Output voltage
168W
Applicable battery pack
BS14A-H24/2.5L
1U/2U size fixed type, Ni-MH battery
UL
Safety standard
Max current/
Max power
(Continuous)
90W
180W
10A
CE
10A
160W max
10A
10A
14A
0.3A
220W max
0A
0A
0A
0A
Min current
W × H × D (mm) 100 × 63.5 × 145
Max current/
Max power (Continuous)
Continuous
EN
85-264V (Worldwide input)
AC input
Output voltage +3.3V
+5V
+12V
PCFD-180P-X2S
Fanless Nonstop power supply
with DC input
CSA
Max current/
Max power (Continuous)
Continuous
UL
100
150
Load (W)
10
BS03A-H16/2.5L
5A
(24pin)
Output voltage
4
Safety standard
5" bay
AC input
Output connectors
(4pin)
50
BS06A-H24/2.5L
0
CE
(Optional)
Fanless Nonstop power supply
Main
Ni-MH
-12V +5VSB
0.2A
1A
0.5A
6A
8A
240W max
255W max
0.5A
0A
0A
0A
150 × 86 × 140 PS/2 size
(20pin)
(20+4pin)
10
Ni-MH
CCC
Secondary side backup system (DC startup unavailable, Common GND between battery and DC output)
5
1
Output connectors
NSP6F-220P-S10
PCFL-180P-X2S2
SFX size, small type
Nonstop power supply
3.5" bay
Ni-MH
Backup time*
20
85*-264V (Worldwide input) *Safety standard: from AC 90V
AC input
DC input
*Safety standard: up to DC 59V
48V (40-65V*)
Output voltage +3.3V
+5V
+12V
-12V
+5VSB
15A
35A
5A
4A
0.5A
Max
current/power
39A max
(Continuous)
250.7W max
VME
+5VSB
1A
CE
*1 Connection part shall be modified for battery connection.
*2 Please ask us about detail information of PS2866.
CCC
90-264V (Worldwide input)
AC input
DC input
48V (40-59V)
Output voltage +3.3V
+5V
+12V
-12V
Max
10A
30A
4A
2A
current/power
173W max
(Continuous)
250W max
Min current
0A
2A
0A
0A
W × H × D (mm) 40.3 × 268 × 171
EN
10A
Safety standard
CE
20
BS06A-H24/2.5L
BS06B-H24/2.5L
1
Applicable battery pack
BS19A-P48/5.0L*1 4U/3U size fixed type, Lead-acid battery
PS2866*2
Ni-MH battery with 6U10HP size VME rack type
*1 Connection part shall be modified for battery connection.
*2 Please ask us about detail information of PS2866.
Safety standard
CSA
90-264V (Worldwide input)
AC input
24V (20-32V)
DC input
Output voltage +5V +12V +24V
-5V
Max
10A
4A
6A
0.2A
current/power
232W max
(Continuous)
240.4W max
240W
CCC
UL
Safety standard
AT
-12V +5VSB
0.5A
1A
-5V
0.5A
4
AT
1
CE
5"2 bay
20
Output connectors
AT output type Nonstop power supply
with 24V output
Backup time*
Backup time*
1.5A
0
Continuous
Safety standard
Lead
85-264V (Worldwide input)
AC input
Time (min)
5
Main
(20pin)
5" bay/Removable
Model name GNSP3-750-12X05-TRP
Output voltage +12V +3.3V +5V
+12V -12V +5VSB
Max
30A
28A
14A
0.3A 1.5A
21A
current/power
348.1W max
(Continuous)
2G-2E system (DC Startup available, Battery-GND isolated)
NSP2-250-D2S
NSP2-250-F2S
DC startup available Nonstop power supply
Lead
4
85-264V (Worldwide input)
Model name GNSP3-750-24X05-TRP
Output voltage +24V +3.3V +5V
+12V -12V +5VSB
Max
15A
28A
14A
0.3A 1.5A
21A
current/power
348.1W max
(Continuous)
708.1W max
Peak
22.5A
current/power
(Within 5s)
5" bay
1
S-ATA
4
AC input
AC input
1
S-ATA
Time (min)
(6pin)
BS10A-H24/2.0L
BS22A-H24/2.0L (See below)
Time (sec)
5
PCI-E
Time (min)
12V
(8pin)
Time (min)
12V
(4pin)
BS17A-H24/2.0L
connectors for ATX output (Optional)
Time (min)
(24pin)
BS12A-P24/5.0L
Time (min)
(20pin)
Main
Time (min)
Main
Time (min)
remote monitoring, communication, and control
via the internet are available.
Time (min)
All in one type system power supply
with isolated 2ch outputs
RBS01A-P24/2.2L(K)
RBS02A-P24/2.3L(K)
Up to 300
sets of data
are shown
on the list
- Windows
Server 2008 R2 (x64)
- Windows
Server 2008 R2 Server
Core (x64)
- Windows
Server 2008 (x86/x64)
- Windows
Server 2008 Server
Core (x86/x64)
- Windows
Server 2003 R2 (x86/x64)
- Windows 7 (x86/x64)
- Windows Vista (x86)
- Windows XP (x86)
- Windows 2000 SP4 (x86)
(IE5.01 or later)
For normal settings, use weekly setting. For special day such as public
holiday and new year, use daily setting and modify or cancel the set-up time.
28
Application version of Nonstop power supply!
Primary redundant system
Primary redundant power supply is redundant power supply that only primary side is redundant and secondary side is common
realized by Nipron’s unique circuit technology. Improving reliability of primary side that is likely to be damaged by surge stress
caused by lightning surge and high-voltage switching circuit including PFC circuit, and thermal reliability, this brand-new redundant
power supply is designed to have more reasonable margin than normal redundant power supply (full redundant power supply) even
in a limited space.
Primary redundant system
Loss: small
PFC
Existing full redundant power supply
Connector current:
small
Capacity: small
Capacity: large
PFC
Inverter
Loss: large
Secondary
side
circuit
Inverter
Secondary
side
circuit
PFC
Efficiency
Inverter
PFC
Existing full redundant power supply (Power supply without enough space)
- Power loss of mutual interference diode is several
wattage or less as it is mounted in primary side.
- As secondary side is in common, component size is one
rank or two larger to contribute to higher efficiency due to
lower resistance (77% typical at AC 240V). *Our new
product achieves high efficiency 85% typ at AC 240V.
- As Oring diode for parallel operation is mounted in each
main output, power loss is 10W to some 10W to raise
temperature and reduce efficiency of the power supply.
- With components squashed up in a small space, power
loss caused by chokes or electric capacitors is large.
rating.
- By making secondary side in common and having enough
margin in components, even one primary unit can afford
continuous full power with no problem including primary unit
components.
Output valtage
Max
current/power
(Continuous)
+3.3V +5V
20A
20A
25A max
Peak
current/power
(Within 5s)
Min current
20A
20A
25A max
0A
0A
Existing
New product
AC input
W × H ×D (mm) 108 × 83.8 × 400
85-264V (Worldwide input)
Output valtage
Max
current/power
(Continuous)
+3.3V
10A
Peak
current/power
(Within 5s)
Min current
15A
0A
+5V
+12V
10A
18A
260W max
276W max
15A
25A
312W max
328W max
0A
0A
-12V
0.5A
0.5A
0A
+5VSB
2A
2A
0A
W × H × D (mm) 108 × 83.8 × 300
Wide application of Primary redundant power supply
In case input from both supply mains and solar
Operation priority signal
Supply mains
(AC100V/200V)
Supply mains Standard products
Primary side unit (AC input)
PFC
Inverter
Secondary side unit (ATX output)
Secondary
side circuit
(+3.3V, +5V, +12V,
-12V, +5VSB)
Natural energy, Development plan
Primary side unit (DC input)
Battery
Multiplex step-up
booster
Development plan
Operation
Length Output power (W)
Rectifying efficiency (%)
(mm) continuous/peak
100V/240V
300 280/330
73/76
Diode
pNSP2U-330P
ATX
pNSP2U-550P
ATX
400
430/550
pNSP2U-1000P
ATX
350
800/1000
single 350
pNSP2U-1000P 12V
output
800/1000
Primary side unit (AC input)
PFC
Secondary side unit (ATX output)
Secondary
side circuit
PV
Multiplex step-up
booster
(+3.3V,+5V,+12V,
-12V,+5VSB)
Primary side unit (DC input)
Inverter
Secondary
side circuit
(+12V or +48V)
Single output
+12V
(Under development
at 1000P on the right)
AC input
+48V
(*) In the case that power is not available from photovoltaic cells, feeding is switched
automatically to commercial source.
83/86
85-264V (Worldwide input)
Output valtage
Max
current/power
(Continuous)
+3.3V
20A
66W
Peak
current/power
(Within 5s)
Min current
21A
69.3W
0A
+5V
20A
100W
+12V
63.3A
759.6W
775.6W max
21A
66A
105W
792W
982.3W max
0A
0A
-12V
0.5A
6W
2A
10W
0A
0A
With input unit circuit improved, and with high performance
parts and synchronous rectifying circuit adopted, high
efficiency is at your hand. Surprisingly, approx. 10% higher
efficiency than existing models in addition to higher output
power and compact design at a time.
Efficiency
90
80
About 10% UP
70
pNSP2U-1000P (at AC100V)
pNSP2U-1000P (at AC240V)
pNSP2U-550P (at AC100V)
60
100
200
300
400
500
600
700
800
Output power (W)
Comparison of dimension and capacity
280W
300mm
pNSP2U- Output power
330P Dimension
12V Single output type
AC input
+5VSB
2A
10W
0.5A
6W
108 × 83.8 × 350
Output power (W)
Dimension (mm)
85-264V (Worldwide input)
Output valtage
Max
current/power
(Continuous)
+12V
66A
792W
Peak
current/power
(Within 5s)
Min current
83A
996W
W × H × D (mm)
+5VSB
2A
10W
pNSP2U- Output power
550P Dimension
2A
10W
pNSP2U- Output power
1000P Dimension
430W
400mm
1006W max
0A
0A
108 × 83.8 × 350
Capacitance UP
Space saving
802W max
0
100
800W
350mm
200
300
400
500
600
700
800
Output power (W)/Dimension (mm)
Other features
Inverter
At normal operation, energy source alternates between commercial power
and photovoltaic cells. By using operation first signal, either of those
sources can be given priority in operation for effective use. For example,
photovoltaic cells comes first during daylight(*), and in the night commercial
power comes first utilizing midnight power effectively.
82/85
Input/Output specification
ATX output type
Inverter
Primary side unit (DC input)
74/77
Diode
Synchronous
rectifying
Synchronous
rectifying
Erroneous operation prevention system
and AC cable coming-off prevention wire
Standard products
Development plan
29
Output type
Inverter
Secondary side unit (Single output)
HVDC
(DC feed)
ATX output
+3.3V
+5V
+12V
-12V
+5VSB
High efficiency
W × H × D (mm)
By changing primary unit in primary redundant power supply, disparate inputs such as natural energy (photovoltaic cells, wind generation,
etc.) and HVDC become acceptable. For example, by inputting two disparate inputs, commercial input + natural energy (photovoltaic cells),
reduction of CO2 emission is expected utilizing best mix. Burden ratio between two type of inputs (disparate inputs) is adjustable by external
signal so that CO2 emission minimization program becomes available. In addition, secondary unit for single output (12V, 48V) and ATX
specification can be ready.
Secondary side unit
Products line-up
Category Model name
pNSP2U-330P-AAS
350mm
1000W type is about to join pNSP2U series with Nipron’s unique circuit technology
“Primary Redundant system” embedded. With synchronous rectifying circuit
adopted and improved, high efficiency, compact and higher power have been
brought to meet customers' request.
- With load sharing between 2 units, when one unit fails, the
other unit has to burden all output power limiting long time
operation (one hour or longer) as thermal design has no margin.
+12V1 +12V2 +12V3 -12V +5VSB
18A 12A 10A 0.5A
2A
35A max
427.6W max
18A 12A 16A 0.5A
2A
44A max
550W max
0A
0A
0A
0A
0A
Primary side unit
Length400mm
In addition to 330W peak and 550W peak power, high power
1000W peak type, that is 12V single output and ATX output type,
joins this time featuring high efficiency and compact.
pNSP2U-550P-AAS
85-264V (Worldwide input)
pNSP2U-1000P series
- Same secondary circuit is doubled to meet full redundancy to
increase components and likely to cause mutual touching of
components.
Buy
more saves more! by point discount system.
Products
line-up
AC input
Newcomers with
full model change
Continuous 430W 800W
Peak
550W 1000W
Secondary
side
circuit
Inverter
Higher efficiency
Highly increased power, more compact
Primary redundant system (Nipron system)
- Number of components is fewer as secondary side is in
Simplicity of circuit
common, and it has margin in component size to keep
and number of components clearance between them. Also it has large derating of part
When one unit of
redundant unit fails;
Connector current:
large
New product
Operation efficiency (%)
Redundant power supply brought by
brand-new idea born from Nonstop circuit
Closeup
Operation error prevention function is
installed at AC switch section so that you do
not have to worry about turning off the
power by mistake. Also, power cable will not
come off by mistake as AC cable connection
section has coming off prevention wire
installed.
In case of unit failure
Even if one of the primary unit
become failure, continuous
operation with the other unit is
available.Also, this redundant
unit is hot-swappable in
replacing the defective unit with
non-defective one.
30
- Fuse is without a tip
- Leakage current
0. 3mA or less necessary at AC264V, 60Hz
(patient-care system - class I)
- Dielectric strength: 4kV (between primary and secondary)
- Insulating distance (approx. 1.5 times of IEC60950-1 Standard)
"UL, CSA, IEC60601-1" compliant
It is said that human body can cause "ventricular fibrillation" with aprox.100[uA](=0.1[mA]) when the current
directly flowed into the body especially near heart.
This current value is called "micro shock ventricular fibrillation induced current".
Therefore, medical system that its electrode is used near heart is regulated to reduce especially "the leakage
current" by JIS standards.
Reference website: "Toranomon-byouin"
Isolation transformer for medical use are
required for reason of leakage current,
creepage distance, dielectric strength.
Applying standards for
power supply installed system
AC L
Power supply NOT complied
When power supply does not comply with the
standards, customers are required to prepare for
input fuses and insulating transformer etc.
Because fuses and transformer will be installed
separately, system will be large and expensive.
"m Series"
Battery Pack
※ mGPSA-750 series during prepararion
Battery Pack
AC N
FG
mNSP3-450P-S20-H1V
Fuse are mounted on both L and N line.
ATTN:
Please be careful with specifications/cautions for competitors' medical power supply
as shown below.
ATX
NSP( Nonstop
PSU )
Coutinuous Peak
Max. Power
300W 450W
mGPSA-360
mPCSA-500P-X2S
Series
ATX
Single output
Single output
Coutinuous Peak
Max. Power
Coutinuous Peak
Max. Power
Coutinuous Peak
Max. Power
360W 600W
300W 500W
What is Medical Standards
Management Board?
Classification
Basic
Standard
IEC specification NO.
(Establishment date)
IEC60601-1 (1988)
IEC60601-1
IEC60601-1
IEC60601-1-1 (1992)
Requirements about electric systems used in
clinical practice are contained. Also contained is
technical requirement which exceed general
information processing system about basic
requirement of safety such as electrification,
insulation.
Based on IEC60601-1, there are various
specifications.
31
Safety
IEC60601-1-2 (1993)
IEC60601-1-3 (1994)
IEC60601-1-4 (1996)
IEC60601-1-5 (200X)
Particular
Standard
Quality
Management
Standard which intend to medical
electrical system
720W 1200W
Battery Backup available for 24V output
IEC60601-1-1
International Standard
mGPSA-750 Series
Basic
Standard
Particular
Standard
IEC60601-2-28 (1993)
IEC60601-2-32 (1994)
IEC60601-2-45/ Ed. 1(1998)
IEC60601-2-45/Ed. 2(2001)
IEC60601-2-45/Ed. 3(200X)
IEC61223-1 (1993)
IEC61223-2-10 (1999)
IEC61223-3-2 (1996)
IEC61223-3-2/Ed. 2(200X)
IEC specification NO.
(Establishment date)
Medical electrical equipment: general
requirement of safety
JIS T 0601-1(1999)
Safety requirement of medical electrical
system
JIS T 0601-1-1(1999)
Electromagnetic compatibility (EMC)
requirement and test
General requirement about radiation
protection
Medical electrical system for programming
safety
Image quality and dose of Diagnostic X-ray
apparatus
X-ray source assembly safety
Related equipment(devices) safety
Breast X-ray apparatus and breast filming
stereotactic equipment
JIS Z 4751-2-45(2001)
Evaluation and routine determination of
quality maintenance for Medical picture
category: general rule
JIS Z 4751-2-1(2001)
Invariance test for breast X-ray apparatus
Acceptance for breast X-ray apparatus
Medical standard approved Fuse are
require to equipped on both L and N line.
mNSP3/mPCSA, mGPSA series (complied)
These series are all done to be double and reinforced
insulation. That is why we are able to satisfy this
requirement.
You will not need to prepare for extra fuses or transformer.
Also, it is compact and inexpensive rather than using power
supplies those are not complying whith the standards.
Battery Backup available
Switching PSU
Medical standard
NOT complied
System
Medical Standards
Micro shock
Advantages of medical standards
complied power supply
This time, Nipron has developed various kinds of medical standards complied power supply, and
we feature requirements and specifications that are specially needed as medical electric systems.
6[A]
or more
AC L
AC N
FG
- Certified as basic insulation, extra insulation circuit is required outside the power supply.
- Insulating material must be used in system chassis when it is used near the patient or other than that.
- When applying for medical systems standards, safety standards certified fuses or breaker needs to be
connected to input terminal.
- Conducted emissions are FCC-A, VCC-A, ripple will be 1.5 times of standard.
System
For PC system of colorful diagnostic imaging, speedy dynamic picture image, and ATX power
supply which provides DC power to speedy& high capacity video card using more and more
evolving GPU, 800W-1000W class products are required. Also, other medical equipment has DC
power source.
Medical Standards (IEC60601-1) will be hard to comply
than Information equipment Standards (IEC60950-1).
Designing requirements are shown below.
Switch
Special topics about medical power supply
Burn injury by high current
induced
Ventricular fibrillation
Graph is the reaction of human body when
100[mA] - 3[A]
current
alternating current (50 or 60[Hz]) flow in through
50[mA] Pain, faint, trouble
with heart & respiratory
surface of skin.
Let-go
current
10 - 20[mA] Limit of escape by
oneself
These show the current value when the current
Tolerable
5[mA]
flowed 1 sec. in adult male's body.
max. current
Feel strongly in legs and arms
2/3 of its value is said for female, and 1/2 for children.
Min.
1[mA] Have pins and needles
perception
It starts feeling pins-and-needles sensations at
current
1
10
100
1000[mA]
approx.1 [mA]=(1/1000[A]) and it is called minimum
Alternating Current (50 or 60Hz)
perception current. When the current is large, it flows
not only through the surface but also inner part of the
body, which causes various symptoms.
If a certain level of the current flowed through the heart, muscle of the heart starts excitation contraction and
stops pumping out the blood. This kind of heart condition is called "ventricular fibrillation".
It is also said that ventricular fibrillation will happen when the amount of the current flowed through the
surface of the skin goes up to 100[mA] or more.
Switching
circuit
Revolution changing
the medical world
Ventricular
fibrillation
Macro shock
What's different from
present power supply specification?
Switching PSU
Medical standard
complied
Isolation transformer for medical use are mounted.
Creepage distance and dielectric strength are also
compliant with medical standard.
mNSP3-450P internal picture
Four fields of the standard
Medical system are one of the international fields, and are classified
into 4 different fields considering the effects on human body.
For production and distribution of relatively low risk (class II) system
and external diagnostic medicines, private third party certification
authority began to certify on behalf of the country.
Below is the comparison of classification on acceptance & necessity
by the country and certification division of revised law.
International
division
Class I
Class II
Class III
Class IV
Medical equipment division based on risk
Effects on human body in case of failure is
considered very low. (Ex. extrasomatic
diagnostic instrument, X-ray film)
Effects on human body in case of failure is
considered lower. (Ex. MRI, electronic
blood pressure, digestive catheter,
ultrasonograph)
Effects on human body in case of failure is
considered higher. (Ex. dialyzer, artificial
ventilator)
Effects on human body in case of failure is
considered loss of life. (Ex. pace maker,
artificial heart valve)
Past
After
constriction
2005
Need no
certification
Self-certification
Government
certification
Certification by
third party
Government
certification
Government
certification
mNSP/mPCSA series and mGPSA series matches class I, II.
Please consult about matching systems for class III, IV.
Fuse on both N and L line.
Transition of Medical Standards
At present, IEC60601-1 3rd is issued.
From this standard, risk management is required.
Because it was not enough to manage the quality of
medical systems only by ISO9001,
ISO14971 is issued and we will have to satisfy the
requirements based on it.
(Certification authority such as UL etc. are not ready to
deal with it. It will be applied some time later.)
Medical Standards are hard to complied, contains
various kinds, and is keep changing many times. It is
risky for us NIPRON, but we will investigate and
handle it with full efforts.
32
Realizing minimally invasive surgery
by image information
Open MRI
mPCSA-500P-X2S
mNSP3-450P-S20 series
Manipulator for MRI
Medical Standard "UL, CSA, IEC60601-1" Complied PSU
mNSP3/mPCSA Series Nonstop power supply
mPCSA-500P-X2S
Backup operation available
Output voltage
Peak current/ power
(within 5s)
Min. current
Input voltage
Without Backup operation
+5V
+12V
-12V
22A
22A
0.5.A
Total 285 W
Total 301 W
30A
33A
30A
0.5A
Total 432 W [482 W]
Total 450.5 W [500.5 W]
0A
0A
0A
0A
AC85~264V
With RS232C signal unit
-H6V
With USB signal unit
Medical standard IEC60601-1 certified,
nonstop ATX power supply
Medical standard IEC60601-1 certified,
ATX power supply
Battery back up function at blackout (with dedicated battery pack)
Double and reinforced insulation type, so that Medical standard
approved commercial insulating transformer is unnecessary.
Fuses are mounted on both L/N line
Leakage current: 0.1mA typ (At AC 100V input)
Equipped with thermal-sensing speed control fan, Silent.
Double and reinforced insulation type, so that Medical standard
approved commercial insulating transformer is unnecessary.
Fuses are mounted on both L/N line
Leakage current: 0.1mA typ (At AC 100V input)
Equipped with thermal-sensing speed control fan, Silent.
Output
connectors
mNSP3-450P-S20-H1V
[ ]:mPCSA-500P-X2S
+3.3V
20A
-H7V
Overlay display device for MRI
Highly-reliable/highly-functional medical computers Had been waited eagerly for
Max. current/ power
(continuous)
500.5W
450.5W
Reference website: Graduate school of information science and technology,
the University of Tokyo
Input/output specification
Peak:
Peak:
Display the MRI graphic
of affected area
(image)
301W
301W
Half mirror
Precision surgery
by image-guidance
Continuous:
Continuous:
Graphic come in sight
of operator
Main
(20in)
Main
AT
(24Pin)
12V
(4Pin)
12V
(8Pin)
PCI-E
AUX
(6Pin)
5
+5VSB
1
S-ATA
4
(Optional)
Safety standard
UL
CSA
EN
CE
Output
connectors
Main
Main
(20in)
(24Pin)
AT
12V
(4Pin)
12V
PCI-E
(8Pin)
5
AUX
(6Pin)
CCC
1
S-ATA
4
(Optional)
Safety standard
UL
CSA
EN
CE
CCC
2A
Dimensions
W × H × D (mm) = 150 × 86 × 140
2.5A
Output voltage
0A
Max current/
Max power
(Continuous)
+5V
-12V
+3.3V
+12V
22A
0.5A
20A
22A
Total 160W
Total 285W
Total 301W
0.5A
33A
30A
30A
Total 200W
Total 432W
Total 450.5W
0A
0A
0A
0A
Intelligence battery pack
"Mi-Pack II" connectable.
Dectects battery life span.
Schedule function.
Low leakage current specification
Satisfy 0.3mA or less leakage current (AC264V
input) to comply Medical standard IEC60601-1 and
class I (3P input plug with earthing).
Continuous
Continuous
max.
max.
Peak
300W 450W
Peak
300W 500W
Min current
Conducted emission class B compliant
Load condition: Rated
Leakage current measured value (example)
Rated input V mNSP3-450P-S20-H1V mPCSA-500P-X2S
AC100V
0.09 mA
0.09 mA
AC264V
0.25 mA
0.25 mA
Peak current/
Peak power
(Within 5s)
Generally, conducted emission is tend to be sacrificed to specify
low leakage current (generate more noise), but we satisfy
conducted emission class B for low leakage current spec.
(installed in computer chassis, measured at load factor 70%)
PS/2 size
+5VSB
2A
2.5A
0A
mPCSL-210-X2S
Dimensions
W × H × D (mm) = 150 × 86 × 140
Output voltage
+3.3V
+5V
+12V
-12V
20A
22A
22A
0.5A
Total 160W
Total 285W
Total 301W
33A
0.5A
30A
30A
Total 200W
Total 482W
Total 500.5W
0A
0A
0A
0A
Max current/
Max power
(Continuous)
Peak current/
Peak power
(Within 5s)
Min current
PS/2 size
+5VSB
2A
2.5A
0A
mGPSA-360/750 series
mGPSA-360 mGPSA-750
series
series
Continuous:
210.8W
Continuous:
Continuous:
Peak:
Peak:
360W
Front PC power supply for medical system
720W
600W 1200W
High cost, heavy weight commercial insulating transformer will be UNNECESSARY.
mGPSA-360/750 Series
Battery pack
●Low leakage current
mounted on both L (live) and N (neutral) line
mGPSA-360
Series
●Double and reinforced
insulation
mGPSA-750
Series
Medical insulating
transformer (image)
Series
mPSA-750
series
Input voltage
Output voltage
Rated output current
+12V
30A
+24V
15A
AC100V
40A
20.8A
AC200V
Rated output current
40A
56A
25A
30A
AC100V
70A
37.5A
AC200V
AC85~264V
80A
50A
Peak output
current
Peak output
current
Load
AC-DC
PSU
Mountable for system rack, convenient size 1U/2U/3U
+12VSB output equipped
Blackout detection signal equipped. For 24V output type, battery
backup operation during blackout is possible with the battery
pack connected.
Conducted emission class B
Equipped with thermal-sensing speed control fan, Silent.
Safety standard
Load
Output
connectors
From now on...
Main
(20in)
Main
(24Pin)
Dimensions
AT
12V
(4Pin)
12V
(8Pin)
PCI-E
(6Pin)
AUX
2
S-ATA
1
Dimensions
Load
Non-insullated
ATX PSU
Max current/
Max power
(Continuous)
Min current
CSA
EN
CE
CCC
W × H × D (mm) = 41 × 128 × 230
W × H × D (mm) = 82 × 128 × 235
mGPSA-360
mGPSA-750
UL
CSA
EN
CE
CCC
Model
W × H × D (mm) = 90 × 48 × 273
mGPSA-360
Output voltage
24V or 12V
UL
2
mGPSA
+3.3V
+5V
+12V
-12V
10A
10A
12A
0.3A
Total 83W
Total 199.7W
Total 210.8W
0A
0A
0.8A
0A
+5VSB
1.5A
Model
mGPSA-750
0A
Output voltage
+12V
+24V
+12VSB
mGPSA-360-
12-TP
24-TP
Common
Max current/power(Continuous)
30A 360W
15A 360W
Peak
AC100V
current/power
(Within 5s) AC200V
mGPSA-750-
40A 480W
Max current/power(Continuous)
Peak
AC100V
current/power
(Within 5s) AC200V
0.3A 3.6W
--20.8A 499.2W
40A 480W
25A 600W
---
12-TP
24-TP
Common
56A 672W
30A 720W
0.3A 3.6W
70A 840W
37.5A 600W
---
80A 960W
50A 1200W
---
PCUI-180P
PC
BS14A-H24/2.5L
Backup operation available
with dedicated battery pack
33
AC-DC
PSU
Slim body with 48mm thick and 90mm width
Leakage current: 0.17mA typ (At AC 100V input)
Equipped with thermal-sensing speed control fan, Silent.
Life expectancy 7 years at ambient temperature 40 deg C and
max output (electrolytic capacitor: about 13 years, FAN: about 7 years)
Conducted emission class B
Safety standard
Line-up and Input/output specification
mPSA-360
series
PC
Switch
When applying for medical standard
for your equipment, you will not need
to connect fuse and breaker, or set
up supplementary insulation outside
the power supply.
Medical standard(UL,CSA,IEC60601-1)
mGPSA-360 series: Compliant
mGPSA-750 series: Preparation
ATX
PSU
*mGPSA-750series: during preparation
0.3mA or less (at AC 264V input)
●Input huses
Medical standard IEC60601-1 certified,
single output power supply
with high capacity and high peak power
Medical standard IEC60601-1 certified,
slim body ATX power supply
Previously...
DC-DC
converter
Customizaction
are on request
Load
Applicable examples
Ultrasonograph
ePCSA-650P-E2S
eNSP-300P-S20-11S
Operation microscope
mGPSA-360-24-TP
BS14A-H24/2.5L
PC for medical analyzer
PCTF-220P-X2S
PC for MRI/CT
ePCSA-500P-X2S
Immunoanalytical system
mGPSA-750-12-TP
Medical DVR
PCTF-220P-X2S
34
PC2U-530P-X2S (PC2U-530P series certified)
China Compulsory Certification
CCC Certified Products
2U height in compliant to rack servers ATX Power Supply
Continuous Max:
Since China is growing rapidly, imports and exports between Japan and
nad China has increased.
Therefore there are
aredmany
manychances
chancesfor
forour
ourproducts
productstotobe
becertified
certifiedbybyCCC.
CCC.
This time we would like to introduce products certified by CCC.
401W
Output
connectors
Main
(20Pin)
Main
(24Pin)
AT
12V
AUX
Processor
5
1
500W
W x H x D (mm) = 150 x 86 x 140 PS/2 size
Main
(20Pin)
Main
(24Pin)
AT
12V
AUX
Processor
5
1
(optional)
S-ATA
PCI-E
4
1
Min. load
Continuous Max:
Output voltage
Max. current/
Max. power
(Continuous)
Peak current/
Peak power
(Within 5 sec)
UL
CSA
EN
+5V
+12V
+3.3V
22A
22A
20A
Total 160W
Total 334W
Total 350W
33A
30A
30A
Total 200W
Total 482W
Total 500.5W
0A
0A
0A
Output
connectors
Main
(20Pin)
Main
(24Pin)
AT
12V
AUX
Processor
5
(optional)
CE
CCC
-12V
0.5A
+5VSB
2A
0.5A
2.5A
0A
0A
Dimension
35
(20Pin)
(24Pin)
AT
12V
AUX
Processor
5
1
S-ATA
PCI-E
4
1
Min. load
EN
+5V
+12V
+3.3V
22A
22A
20A
Total 160W
Total 334W
Total 350W
33A
30A
30A
Total 200W
Total 432W
0A
Total 530.5W
0A
0A
0A
PCI-E
4
1
CE
CCC
-12V
0.5A
+5VSB
2A
0A
Total 450.5W
0A
0.5A
0A
2.5A
0A
UL
CSA
EN
CE
+12V1
+12V2
16A
10A
Peak current/
Peak power
(+12V1:0.5s, Others:Within 5 sec)
16A
Min. load
0A
Total 90W
CCC
-12V
+5VSB
0.5A
2A
0.8A
2.5A
0A
0A
Total 216W
Total 250W
16A
22A
Total 100W
10A
Total 264W
Total 300W
0A
0A
0A
SFX power supply corresponding to Appendix C mounting surface
+12V dual output allows stable CPU operation.
All output in stable operation even with no load current
Certified by
(20Pin)
Main
(24Pin)
AT
12V
AUX
Processor
5
1
S-ATA
PCI-E
4
1
CSA
EN
CE
Output voltage
+3.3V
+5V
+12V1
+12V2
Max. current/
Max. power
(Continuous)
14A
16A
10A
16A
Peak current/
Peak power
(+12V2:0.5s ,Others:Within 5 sec)
20A
Min. load
0A
W x H x D (mm) = 125 x 63.5 x 125 SFX Appendix C
Main
UL
Total 90W
CCC
-12V
+5VSB
0.5A
2A
0.8A
3A
0A
0A
Total 220W
Total 250W
21A
16A
Total 120W
22A
Total 270W
Total 350W
0A
0A
0A
PCSA-370P-X2S/X2S1/X2S3 (PCSA-370P series certified)
370W-class Highly Economical ATX Power Supply Continuous Max:
280W
370W
-X2S3
(optional)
Main
0A
14A
Peak:
-X2S1
connectors
Main
CSA
S-ATA
Peak:
Peak current/
Peak power
(Within 5 sec)
0A
+5V
250W
-X2S
W x H x D (mm) = 150 x 86 x 140 PS/2 size
Dimension
Output
450W
With RS232C signal unit
With USB signal unit
2.5A
+12Vdual output,Ultra high efficiency SFX power supply
Output connector
-H1V
-H6V
0.5A
PCSF-350P-X2S1 (PCSF-350P series certified)
With backup function, it protects your PC from Blackout.
Thermal-sensing fan adjusts speed, Silent
Designed to last 10 years minimum with continuous rated
operation at 45 deg C
Max. current/
Max. power
(Continuous)
Total 401W
30A
16A
350W
0A Minimum Current for All Outputs,
High Power Nonstop Power Supply
Output voltage
30A
33A
Total 200W
Total 512W
+3.3V
Continuous Max:
eNSP3-450P-C20-H1V/H6V (eNSP3-450P-C2* series certified)
Peak:
1
(optional)
UL
CCC
+5VSB
2A
Max. current/
Max. power
(Continuous)
W x H x D (mm) = 106 x 41 x 260 1U size
Dimension
connectors
Certified by
CE
-12V
0.5A
Output voltage
300W
Output
350W
Certified by
Peak:
Certified by
EN
+12V
22A
+12V dual output allows stable CPU operation.
All output in stable operation even with no load current
Connector system for output harness enables flexible selection in
specification
250W
Min. load
Continuous Max:
1
CSA
+12V dual output, High power 1U size PC Power Supply
Allows stable State-of-art CPU operation
74ms output hold-up time with 200W at instantaneous
blackout to cover poor power condition
Thermal-sensing fan adjusts speed, Silent
Peak:
PCI-E
4
Peak current/
Peak power
(Within 5 sec)
UL
+3.3V
+5V
20A
22A
Total 160W
Total 385W
PC1U-300P-E2S (PC1U-300P series certified)
All outputs equipped with voltage
regulation circuit individually
350W
S-ATA
(optional)
ePCSA-500P-X2C (ePCSA-500P-X2C series certified)
Continuous Max:
Max. current/
Max. power
(Continuous)
W x H x D (mm) = 108 x 82 x 200 2U size
Dimension
CCC S&E Mark
Output
Output voltage
530W
CCC stands for China Compulsory Certification, which new certification is publicized from
AQSIQ (State General Administration of the People's Republic of China for Quality
Supervision and Inspection and Quaratine) and CNCA (Certification and Accreditation
Administration of the People's Republic of China) due to China's reexamination of forced
certification by WTO affiliate country.
It is a certification standard about safety and EMC for products sold in China. Any
shipping, import, and sales of products without CCC certification are prohibited. Letters on
right side of CCC shows class of certification. "S" means "safety certification", "EMC"
means "EMC (electromagnetic compatibility)", "S&E" means "Safety and EMC", "F"
means "Fire-related". Those models (series) on this page has been certified "S&E".
connectors
Certified by
Peak:
What's CCC?
Dimension
Connector method adopted to all outputs corresponding to a variety
of output connector type
All output in stable operation even with no load current
Thermal-sensing fan adjusts speed, Silent
Main
(20Pin)
Main
(20Pin)
Main
(20Pin)
Main
(24Pin)
Main
(24Pin)
Main
(24Pin)
AT
AT
AT
12V
12V
12V
AUX
AUX
AUX
Processor
Processor
Processor
4
4
4
1
1
1
S-ATA
PCI-E
2
1
S-ATA
PCI-E
2
1
S-ATA
PCI-E
2
1
With same high reliability, 370W peak output economical ATX
power supply
Low price ATX power supply with condensed function
Thermal-sensing fan adjusts speed, Silent
Dimension
Certified by
Output voltage
Max. current/
Max. power
(Continuous)
Peak current/
Peak power
(Within 5 sec)
W x H x D (mm) = 150 x 86 x 140 PS/2 size
UL
CSA
+3.3V
+5V
17A
21A
Total 35A max*
Total 267W
20A
25A
Total 35A max
Total 352W
Min. load
0A
*Restricted by 30A by safety standard
2A
EN
CE
CCC
+12V
18A
-12V
0.5A
+5VSB
1.5A
Total 280.5W
18A
0.5A
2.5A
Total 370.5W
0A
0A
0A
36
Nonstop Power Supply
Optimum structure
considered airflow.
High-grade parts used in.
Battery pack
"BS03A-H16/2.5L"
Installable for other mounting sizes by using
optional attachment panel
Standard SFX Profile package
100mm
(APPENDIX D) size
86mm
For PS3 Form Factor
(APPENDIX E) and ATX
(PS/2) size
63.5mm
Model: ACC2837
150mm
125mm
For TOP FAN mount
(Reduced Depth Top
Mount Fan) Package
(APPENDIX C)
63.5mm
125mm
Model: ACC5134
FAN of Japanese manufacturer
Silent and long life (8.6 years at 40 deg C)
Backup operation
Backup operation at blackout is possible by connecting dedicated battery pack.
High efficiency 90% and keeps power loss minimum.
Battery pack
Back up time
Small size Ni-MH battery pack
Capacity: 16.8V/2.5AH
Size (mm): 92.5W x 159.5D x 23.7H
Model: BS03A-H16/2.5L
Installable for 3.5 inch bay
Time (min)
Model: BP03A-H16/2.5L
35
30
25
20
15
10
5
0
60
Small size Ni-MH battery pack
Capacity: 16.8V/2.5AH
Size (mm): 101.5W x 175D x 25H
37
Automatic shutdown at blackout is also possible by using
automatic shutdown control software "NSP Pro 2".
(In case of Windows 2000/XP, OS standard UPS service
also can be used.)
80
100
120
140
160
Load (W)
* This is not guaranteed value but reference value at default condition.
* This graph shows the time length from the time of blackout
to the time of PSU output shutdown.
The time to
judge that
recovery is
impossible
after a
blackout can
be set up in
second.
Automatic shutdown software
Model: NSP Pro 2
OS specification:
Windows 2000/XP/Vista/7
- Detail time setting that Windows standard
UPS service does not cover is settable
(power recovery supervisory time)
- Visible and easy setting by GUI
Shutdown delay time, after it is judged that
recover is impossible, can be set up in second.
Specific program in "exe" and "bat" can be set up to
operate at the moment is judged that recovery is
impossible.
Signal connection image
When using automatic shutdown function, please connect
RS232C connector (9 pin) to serial port connector of
motherboard (internal).
Other features
Min. load current 0A for all outputs
Serial port
connector (internal)
Input voltage
Efficiency Power factor
AC100V
75.1%
99.5%
AC240V
79.1%
96.3%
DC16.8V (Battery operation) 90.2%
(Measured value)
SFX 12V standard,
palm size small PC power supply
Comply with Standard SFX Profile Package
(APPENDIX D) size * FAN is projected at back side
powerful!
Palm size
Nonstop power supply
Model: NSP6F-220P-S10
Continuous 160W
Peak 220W
Small and
SFX12V
Monitor screen (Condition setting)
Automatic shutdown available
No need to care about min. load current. Various types of loads
within the range of output specification.
RS232C Signal
connector (P9)
Synchronous rectification chopper PCB
Chopper unit is adopted for indivisual output to easily customize
output. Also high efficiency by PFC circuit.
* TTL signal type is also available. Model: NSP6F-220P-T10
Measured value (at rated load)
Input voltage
Efficiency
AC100V
75.1%
Synchronous
AC240V
79.1%
rectification
chopper PCB
DC16.8V (Battery operation) 90.2%
Input/output specification
Input
AC input
85 - 264V (Worldwide input)
Expected life more than 10 years
DC input
16.8V (Dedicated battery pack)
Expected life is more than 10 years at rated load and intake air
temperature 35 deg C. (FAN is 8.6 years at 40 deg C.)
Output
Output voltage
Note: Main 3 outputs are easily customizable
to other voltage (15V or less)
+3.3V
Max. current/
Max. power (Continuous)
10A
Peak current
Peak power (Within 5S)
10A
Min. current
0A
+5V
+12V
-12V
Main connector 20+4 pin
+5VSB
10A
10A
0.3A
Total 160W or less
1.5A
10A
14A
0.3A
Total 220W or less
1.8A
0A
0A
0A
Available for both 20 pin and 24 pin motherboard
Output connector
Main
(20+4Pin)
12V
(4Pin)
HD
S-ATA
3
0A
4
FD
RS232C FAN_M
1
Flex ATX spec, small power supply release!
Model: PCFX-220P-X2S
- Small size 81.5W x 41H x 150D, installable for 1U rack server
- Modified model with silent FAN is also available
- Active filter (PFC circuit) equipped
- World wide input
Main
3
12V
(20+4Pin)
150mm
1
S-ATA
41mm
4
AC input
Output voltage
Max. current/
Max. power (continuous)
Peak current/
Peak power (within 5S)
Min. current
90 - 264V (Worldwide input)
+3.3V
+5V
+12V
-12V
10A
10A
10A
0.3A
Total 75W or less
Total 170W or less
12A
12A
12A
0.3A
Total 85W or less
Total 220W or less
0A
0A
0.5A
0A
81.5mm
+5VSB
2A
Security camera and
stand alone DVR is
popular applications.
2A
Continuous
0A
Peak
170W 220W
38
New comer living up to your expectation!
Output harness specification to meet latest demand
Compact PC power supply
in Flex ATX standard dimension
Model
Model name:
name:
Output harness is adopted following high demand after check
to meet customer's specification.
Harness diagram
PCFX-220P-X2S
Main connector
20+4 pin connector
S-ATA connector
4
Peripheral connector
3
12V connector (4 pin)
1
FDD connector
1
20+4 pin connector
Able to use as both
20 pin and 24 pin connector.
Other features
With slit for fixing
Continuous
Continuous 170W
170W
Peak
Peak 220W
220W
Input voltage
AC100V
AC240V
Can be fixed to chassis as slit for fixing with penetration depth
of 7mm on the side
Life expectancy 8.5 years
8.5 years of lifetime expectancy at input/output rating and
ambient temperature of 40℃ (approx 10.3 yrs for electrolytic
capacitors, approx 8.5 yrs for fans)
Efficiency Power factor
74.82%
99.30%
79.29%
94.70%
PFC circuit equipped
Input/output specification
*Measured value (Conditions: Rated load and normal temperature)
AC input
90-264V (Worldwide input)
Output voltage
Max
current/voltage
(continuous)
+3.3V
+5V
10A
10A
Total 75W max
High power factor with PFC circuit (Power Factor Correction)
equipped (At normal temperature and rated load, 99% typ at
100V and 95% typ at 240V)
Compact 1U dimension power supply newer than ever
150mm
70mm
Small size 81.5(W) x 41(H) x 150(D)
Designed as 1U power supply of DVR to be built in 1U
dimension unit as its height is 41 mm!
Meeting Flex ATX dimension
[81.5 (W) x 40.5 (H) x 150 (D)] in ATX standard
81.5
mm
Depth 150mm: as shorter as 70mm compared
with our existing 1U power supply PC12U-200P-X2SH by
implementing small new components with optimized layout
PCFX-220P-X2S
High reliability still stays there even in small
dimension!
82
mm
PC12U-200P-X2SH
Nipron 1U power supply
43mm
195mm + FAN 25mm thick
Other company's
power supply 1
Much higher reliability is obvious when compared with offshore
products. Choose Nipron's power supply! and feel relaxed
during its lifetime rather than you feel anxious about offshore
products whose component layout may give you any trouble in
use.
Nipron
PCFX-220P-X2S
Other company's
power supply 2
Thermistors fixed with only silicon
+5VSB
10A
0.3A
2A
0.3A
2A
Thermal sensing speed control FAN equipped
Thermal fan speed control equipped.
The fan speed is low when the temperature
inside the power supply is low resulting in
silence. The speed goes high when the
temperature inside the power supply is
high so that high temperature air inside
PC is exhausted more resulting in low
temperature rise of hot components such as CPU.
12A
Min current
0A
12A
12A
Total 85W max
Total 220W max
0A
0.5A
Temperature derating
0A
0A
Worldwide input
Input voltage and load factor
100
100
80
80
60
FAN speed
control PCB
Detecting fin
temperature
by thermistor
Input voltage selection switch is unnecessary unlike switch
system as worldwide input system is adopted so that 90 to
264V input voltage is acceptable without switch operation.
Safety standard acquired
60
Acquired safety standard: UL(IEC)60950-1・c-UL・CE
0
10
20
30
40
50
Ambient temperature (deg. C)
0
90
100
Input voltage (V)
110
ical
d
e
M dard
n
Sta
New comer! Slim body ATX power supply with medical standard
Existing ATX power supply (PS/2 size) occupies wider area causing hard assembly.
However this model gives you ultimate solution for PCs built in compact medical equipments.
Jumping wires due to three
layered component with film
capacitors/line filters/film
capacitors
Model name: mPCSL-210-X2S
- Medical standard IEC/UL (c-UL) 60601-1 compliant (60950-1 also compliant)
- Slim body 48mm thick and 90mm wide
- Low leakage current 0.2mA (at AC 100V input), complied with medical standard
- Silent. Thermal sensing FAN detects internal temperature and controls operation speed.
- Life expectancy 7 years at ambient temperature 40 deg C and max output
(Electrolytic capacitor 13 years, FAN 7 years)
- Conducted emission voltage class B (VCCI/FCC/EN55022)
Irregularly shaped
insulation sheet that
cannot be found
anywhere
Grounding capacitor
directly soldered to
the back of inlet
AC input
Output voltage
PFC film capacitor pressed
away by lead wire
Grounding capacitor under the film capacitor
Single sided PCB
Film capacitor directly soldered to the back of inlet
Rectifying bridge under film capacitor (with no serigraph)
39
-12V
Total 170W max
Peak
current/voltage
(within 5S)
Load (%)
41mm
Load (%)
Here for you by implementing small new components with optimized layout!
+12V
Max current/voltage
(continuous)
Min current
240㎜
48㎜
Main
12V
2
S-ATA
(24Pin)
85 - 264V (Worldwide input)
+3.3V
+5V
+12V
-12V
10A
10A
12A
0.3A
Total 83W max
Total 199.7W max
Total 210.8W max
0A
0A
0.8A
0A
+5VSB
1.5A
90㎜
0A
1
2
Continuous
210W
40
Synchronous rectification circuit equipped
For Green Innovation Era
HPCSA-1000P-E2S has synchronous rectification circuit and
achieves high efficiency.
Ultra High Efficient
Complying with 80Plus
Diode-rectification
Double-sided PCBs with through-hole
Enough creeping distance complying with medical
standard, fuse without tip
All outputs have the minimum load 0A.
Equipped with thermal-sensing speed control fan, Silent.
85 mm height mountable into 2U size chassis
Synchronous rectification of FET
+
+
Peak Power 1000W
ATX Power Supply!!
*Location of mounting holes is complying with PS/2 standard.
If loaded current is 50A, diode drop voltage will be 0.5V and FET drop
voltage will be 0.04V. FET is much smaller than diode and can save
power loss. Total amount of power loss will be 25W (0.5V x 50A) with
diode and 2W (0.04A x 50A) with FET.
Continuous: 822W Peak: 1000W
Model:
Other features
HPCSA-1000P-E2S
Synchronous
rectification
signal
Current 50A
Current 50A
Voltage drop 0.5V
Power loss = 0.5V × 50A = 25W
Large heat in diodes…Poor efficiency
Voltage drop 0.04V
Power loss = 0.04V × 50A = 2W
Much less heat in FET…Higher efficiency
Contribute to reduction of world’s power loss.
Specifications
Complying with 80Plus, high efficiency ATX power supply with huge capacity 1000W
Efficiency
90
80 Plus is an American certification program, for power saving of electric
equipments. Requires more than 80% of efficiency at AC115V input and
20%, 50%, 100% rated capacity with more than 90% power factor (with
PFC for harmonic). There are 4 grades 80PLUS, 80PLUS BRONZE,
80PLUS SILVER, 80PLUS GOLD by efficiency.
ER
ILV
86
S
US
PL
80
ZE
ON
R
SB
82
80PLUS
Total 249 W
25A
25A
Total 1000W
Minimum current
0A
Total 1000W
0A
0A
200
300 400
500 600 700
800 900
82%
85%
82%
85%
88%
85%
87%
90%
87%
Output power (W)
Comparison of electric bills and CO2 emission
Comparison of electric bills and CO2 emission between
HPCSA-100P-E2S and general switching power supply
with efficiency 70% is shown below.
Conditions: AC 115V input,800W output, 24-hour continuous running for 365 days
Electric bill*1 CO2 emission
per year*2
Efficiency
Input power
HPCSA1000P-E2S
86.5%
924.9W
162,035 yen
3,062.5kg
Power supply
with efficiency
70%
70.0%
1142.9W
200,229 yen
3,784.3kg
Difference
16.5%
-218.0W
-38,194 yen
-721.8kg
(*1) 20 yen/kWh (*2) 0.378kgCO2/kWh
Less than 1W standby power complying with ErP directive
Contribute to reduction of CO2 emission and saving
electric bills by control standby power 1W max.
0A
Deminsion
25A
0A
25A
+5VSB
100
0.4A
3A
80
0.6A
0A
4A
0A
100
60
40
20
0A
0
150(W) × 85(H) × 190(D) mm EPS size
10
20
30
40
50
Ambient temperature (deg C)
60
90
80
0
80
90
100
110~
Input voltage (V)
Output connectors
HD 1,2
80%
80%
80%
30A
Ambient temperature and output derating Input voltage and output derating
-12V
Model name
Connector specificarions Acceptable
Connector type/length
WH-M2022-500
500±15
WH-M2422-500
500±15
WH-PP610-850
550±15
cable(s)
20Pin
20pin main connector
24Pin
24pin main connector
1
WH-PS610-850
550±15
150±15
150±15
150±15
150±15
(HD)
peripheral
FD
SATA
WH-PS710-850
550±15
150±15
850±15
150±15
12V 1,2,3
100
at 20%
at 50%
at 100%
+12V2 +12V3 +12V4
18A
18A
18A
Total 792W
Total 822W
30A
Main
Load Factor
+12V1
18A
Peak current/
Peak power
(Within 5s)
P
80
80
78
0
LU
AC85*-264V (Worldwide range) *Derating is required (to 90V)
+3.3V
+5V
25A
25A
Total 207.5W
Port
84
Max current/
Max power
(Continuous)
Port
Efficiency (%)
Nipron
88 HPCSA-1000P
Input voltage
Output voltage
Load factor (%)
What's 80Plus ?
I/O specifications
Load factor (%)
High power is now required as processing speed of recent CPU and GPU has much improved. On the contrary,
however, CO2 reduction is required and while many users increasingly demand highly efficient power supply.
Under those circumstances, we, Nipron, have developed HPCSA-1000P-E2S as the first shot that provides 1000
peak output to meet 80Plus. This power supply has reduced conduction loss and switching loss by adopting new
material, silicon carbide, resulting in drastic conversion efficiency improvement.
Peripheral connector×5
FDD connector×1
SATA connector×2
Peripheral connector×3
FDD connector×1
SATA connector×4
Peripheral connector×2
FDD connector×1
2
Model name
Connector type/length
WH-V0808-500
500±15
WH-V0408-500
500±15
WH-VG208-500
500±15
WH-VV208-500-02
500±15
500±15
WH-G0808-500
500±15
WH-GG208-500
500±15
cable(s)
+12V8Pin connector
12V 8Pin
12V 4Pin
+12V4Pin connector
12V 4Pin
+12V4Pin connector
PCI-E6Pin connector
PCI-E 6Pin
12V 8Pin
WH-VG208-500-02
Connector specifications Acceptable
+12V8Pin connector×2
12V 8Pin
PCI-E 6Pin
+12V8Pin connector
PCI-E6Pin connector
PCI-E 8Pin(6Pin+2Pin)
PCI-E8Pin connector
PCI-E 6Pin
PCI-E 8Pin(6Pin+2Pin)
PCI-E6Pin connector
PCI-E8Pin connector
12V 8Pin
3
Outline drawing
Output port allocation
What's ErP directive ?
ErP directive is one of environmental legislation and regulations
for products developed by EU, used to be called EuP directive.
Intend to assigned class such as household electrical appliance
and office electrical equipment. There are some requirements
such as environmental design, and affix CE mark. Issued on
Jan 7th, 2010
Power consumption at "Off Mode"
Over 1.00W (0.50W)* power consumption of equipments at off
mode is prohibited.
Power consumption at "Standby Mode"
Over 1.00W (0.50W)* power consumption of equipments that only
input reactivate function, or input reactivate function, only indicate
reactivate functions available at standby mode is prohibited.
*Inside of ( ) is effective from Jan 17th, 2013
*Built-in types are excepted for ErP directive.
41
42
Nipron’s Energy Converter
contributing to solutions of
environment problems
“Tajubu” is...
“Tajubu” (booster type) is DC-DC converter with multiple boosting system, and converts low DC input voltage to high DC voltage easy to use
with high efficiency (92 to 97*%). * depending on the difference between input and output voltage.
Converts low DC voltage
such as atteries
IN
+ -
OUT
Boost
circuit
Low voltage
input power
Batt
High voltage
output power
COM
“Tajubu” is DC-DC booster adopting multiple boosting system. The brand name, “Tajubu”, was named after
Nipron’s original “Multiple boosting system.”
This system converts (boosts), with high efficiency, energies unstable and hard to use such as green energies
including solar light, wind power, and fuel battery, or batteries and capacitors to energies stable and easy to use.
Also, the output can be directly connected to HVDC line and most suitable for DC power feeding system, which
has now become the topics.
In addition, bidirectional Tajubu, which not only steps down the voltage but also boosts as well, is lined up.
By operating bi-directionally, “Tajubu” is highly expected to respond to the environmental requirement our modern
society is taking into account since the energy can be charged and discharged as well.
That is why we feature this time “Energy Converter; Tajubu” which converts with high efficiency to the energy
easy to use.
Booster type Tajubu
Step-up/-down Two-way Tajubu
TB series
TBR series
guided vehicle(AGV)
Efficient utilization of
natural energy
Inverter cost
reduction/options increase
Tajubu for the solor cell
Improvement of
global environment
Absorption and
reutilization of
regenerative energy
Peak
power cut
Blackout
backup
Energy saving
(Reduction of electlic bill and CO2)
Reduction of
access to electricity
Reliability improvement
to easy-to-use high DC voltage
with high efficiency
Nipron’ s unique products, the multiple boost circuit
Normally used step-up power supply has choke coils to store in itself exciting energy generated during ON time and to transfer flyback
energy generated during OFF time to electrolytic capacitors after rectification process. This energy is supplied to load via high voltage
circuit. However, when the output exceeds 100W, it generates heat due to ripple current in the capacitors to limit the output power. The
efficiency at this time is 75 to 80% in general. In Nipron' Tajubu as shown below, it has multiple bootstrap circuits in parallel to control on
time of each circuit. It boosts input voltage 10 times or more as high to provide maximum continuous power, 2 to 10kW, with ultra high
efficiency (94 to 97%) without electrolytic capacitors. In addition, several multi-boost circuits are connected in series as shown in the block
diagram to gain high voltage and large current with stable output regulation in a comprehensive shift-control way. Also, for several
applications, it has ability to achieve constant voltage and current in various methods.
Front
stage
boost
circuit
Ln
Ln'
L2
L2 '
L1
L1'
+IN
Utilization for automated
COM
Letter
stage
boost
circuit
Front stage
boost circuit
+OUT
Letter stage
boost circuit
SW1 SW2
SWn
SW1' SW2'
Load
SWn'
Ein
-IN
-OUT
Most suitable devices are selected for the
first and the second channel respectively.
- Total efficiency up
- Achievement of high voltage and high power
Voltage regulator,drive and protection circuit
feature
Electric double
layer capacitor
Electric double
layer capacitor
Adopting Nipron’ s original multiple boosting circuit, Compact/High
efficiency (92 to 97*%) has been brought. *depending on the
difference between input and output voltage.
With 2-stage boosting circuit adopted, total efficiency has been
improved as most suitable devices are used for the first and the
second channel respectively.
Parallel operation is available (we have the track record of up to 10
units in parallel operation.)
More than double peak current of rated output (with in 10 seconds)
Higher reliability due to PCB coating
Lined up as standard products in stock
Ripple current diminishes
canceling each other.
Parallel running available
- High efficiency in compact size
Step-up/-down two-way Tajubu
Step-up/-down two-way Tajubu, with both of multiple booster circuit and multiple step-down circuit adopted, has
realized two-way operation to charge capacitors (step down) and discharge to equipments from capacitors (step up.)
With this two-way Tajubu implemented, system configuration such as absorption/re-use of regenerative energy, cutting
of peak power, and back up at blackout can be easily built.
Booster type Tajubu
TB4S-2000-280
Step-up/-down two-way Tajubu
TBRS-5000/3000-155/320
Block chart
IN
Low voltage
input power
Block chart
boosting Tajubu
OUT
Boost
circuit
boosting/lowering interactive Tajubu
OUT
IN
Step-down
circuit
IN
High voltage
output power
OUT
Step-up
circuit
Step-down
circuit
Electric double
layer capacitor
COM
43
COM
COM
IN
OUT
OUT
IN
Step-up
circuit
COM
Electric double
layer capacitor
COM
COM
Automatic charging and discharging by
detecting voltage (also, control by signal input is
available,) brings simple connection only
between capacitors and loads.
44
TB series
Booster Tajubu for automated guided vehicle
With booster type Tajubu (TB series) installed to automated transportation robot (AGV) powered by a battery,
general purpose inverters (AC) which are inexpensive and variously lined up can be utilized.
Use DC inverter
Expensive
Motor
Battery
DC inverter
Tajubu allows AC inverter
to be usable
Reasonable
M
As the connection is in parallel, higher reliability
against wire breaking and malfunction is secured.
High voltage via series connection
Boosting
Tajubu
With booster type Tajubu equipped, general purpose inverters can be used.
Compared with DC inverter...
Booster type Tajubu with MPPT circuit equipped derives solar cell energy at a maximum.
For solar cell panel, low voltage parallel connection has higher reliability than high voltage series connection
regarding wire breaking and malfunction.
Also, in the case of connection in series, dead space occurs due to short of necessary area depending on the
shape of roof, but effective utilization eliminating the dead space can be brought by parallel connection.
200V type motor
(Reasonable)
Many Tajubus are
used due to a cost
advantage in total.
Low voltage motor which complies with the
battery voltage is required.(Expensive)
Booster Tajubu for solar cell (equipped with MPPT circuit)
Motor
General purpose
(AC) inverter
M
TBM series
Lower cost inverter
More inverter options
Battery
AGV
Image picture
Connecting the panels in series
invites dead space because of
the short of necessary area
depending on the shape of roof
on which the panel is mounted.
Even in the dead space, the
connection is available via
Tajubu when panels are
connected in parallel.
48 - 72V output
voltage from
solar battery is
appropriate
Tajubu
Power
conditioner
Tajubu
Tajubu
Tajubu
Power
conditioner
General purpose (AC) inverter
Connection diagram
<<solar cell in series connection>>
Motor
M
+IN
MPPT operation?
AGV
Image photo
Booster type Tajubu
Battery: 48V
(24V type is
also available)
DC37
to 63V
Series
DC284V
Stable
Rated input voltage (DC)
Range of input voltage (DC)
Output voltage (DC)
Maximum continuous
output current/voltage
Maximum peak
output current/voltage
TB4S-2000-280
48V
37 - 63V
284V
TB2S-1500-280
24V
18 - 32V
284V
7A/1988W
3.52A/1000W
16A/4544W
Max 10s
5.28A/1500W
Max 5s
* Higher power with parallel connection
Usage example
Case1. device:AGV
Tajubu in use:TB4S-2000-280(standard product)
Successful cost reduction by implementing general purpose
inverters with Tajubu!
Case2. device:AGV
Tajubu in use:TB4S-2000-280(standard product)
We have a track record showing a lot
(1,000 units or more) have been delivered to
semiconductor factories since 10 years ago.
Use two PSU
By utilizing booster type Tajubu equipped with MPPT circuit for DC power feeding system as well, the
energy from the solar cell is supplied on a preferential basis and efficiently to DC power feeding line.
High voltage
DC power feeding
(HVDC)
MPPT
Boosting
Tajubu
Boosting
Tajubu
Boosting
Tajubu
TBMseries
TBseries
TBseries
Soloar energy generation
Fuel battery
Wind-power generation
Clean energy including fuel
battery and wind power
generation also can be
efficiently provided to DC
power feeding line.
Usage example
One Tajubu
is enough
Device:DC power feeding system
Continuous: 2kW
Max peak: 4.5kW
Other two boosters used to be connected, but only one Tajubu
has brought cost reduction because it provides peak current
double as much as the rated current!!!
Beyond Tajubu application for only AGV, every application for equipments with
battery-driven motors would be expected! Booster type Tajubu is actively playing an
important role in equipments in surprising sectors unexpectedly.
45
MPPT stands for Maximum Power Point Tracking meaning tracking the maximum power point.MPPT control
refers to the control to track the maximum power point (optimal operating point) of the solar cell. Solar cell has
the characteristics that the current derived is determined by the load voltage connected. In order to efficiently
draw the energy from solar cell, load voltage connected to the solar cell needs to be controlled so as to make
the power maximum. This control is referred to as MPPT control.
-IN
Booster type Tajubu
Boost
circuit
<<Solar cell in parallel connection, covering faragments>>
Tajubu in use: Equipped with MPPT circuit, Booster type Tajubu (modified from standard type)
High efficiency! by feeding solar cell energy to DC power feeding system via Tajubu
DC power feeding?
DC power feeding is power feeding system to supply electric power in DC form to electronics devices.
This power feeding system realizes higher efficiency to save energy by decreasing conversion frequency of energy delivered
to computers such as servers. The energy is converted three times in total such as AC to DC (to charge UPS), DC to AC (for
server input), AC to DC (converted in servers to actuate electronic devices), resulting in much loss when UPS
(uninterruptible power supply) is used. If DC can be supplied to the server, however, the conversion is only once, that is, just
one conversion to AC to DC. DC power feeding system has come from this ides to save energy with higher efficiency while
reducing the number of conversion.
46
It is effective also in the power failure backup for a short time (every one second).
TBR series
Step-up/-down two-way Tajubu for avsorbing and reutilizing regenerative energy
With two-way TAJUBU, boosting-/step down-type, combined with electric double layer capacitor, regenerative energy of
there-phase motor can be utilized effectively while allowing electric power rate to be reduced. Also, CO2 reduction is expected.
Existing mechanism
Alternative mechanism (Tajubu)
The regenerative energy is consumed as heat
With two-way TAJUBU, boosting-/step down-type, combined with electric double layer capacitor for an equipment
requiring peak power, peak power is cut utilizing the energy stored in the capacitor allowing the reduction of
access to electricity.
Cutting peak power reduces accessto electricity
Motor
Motor
Big
General purpose
M
(AC) inverter
Step-up/-down two-way Tajubu for peak cut
Access to electricity according
to peak power value is needed
Absorbing and reutilizing regenerative energy
Motor
General purpose
TBR series
Braking motor generates
regenerative energy
M
(AC) inverter
Reutilizing it for the motor
speeding up reduces input
electric energy and enables the
reduction of electrical bill (CO2).
General purpose
(AC) inverter
access to
electricity
(cubicle type)
Motor
Small
M
Peak power generating
Boosting/lowering
Peak
power
cut
bilateral booster
Heat
The regenerative energy is
consumed as heat
Load power
Input electric energy
Tajubu
Electric double layer
Heat
Image
Connection diagram
(2) In outputting
(discharging)
Motor
M
Electric
double
layer
capacitor
By absorbing and
reutilizing regenerative energy
Inverter
(2) Peak
load time
Motor
Energy
Saving
Reduction
of access
to electricity
Three-phase
input
-IN
+IN
(1) In regenerating (charging)
The electric double layer capacitor is charged, via “TAJUBU,” by
regenerative energy generated at motor deceleration.Additionally,
output voltage of “TAJUBU” is boosted up to 320V to stand by.
-IN
Step-up/-down two-way Tajubu
Step-down
circuit
(2) In outputting (discharging)
At motor acceleration (after absorption of regenerative energy), the
energy of capacitor contributes to raise the output voltage of
“TAJUBU” through itself to drive the motor while reutilizing the energy.
By cutting peak power
M
(Reduction of
electrical bill and CO2)
Three-phase
input
Step-up/-down two-way Tajubu
IN
OUT
Step-down
circuit
OUT
IN
Boost
circuit
Electric double
layer capacitor
At peak power required, peak power is cut utilizing the
energy stored in the capacitor allowing the reduction of
access to electricity.
Load power
Input electric energy
(1) Normal time
+IN
Image
(a vertical
pallet lifter)
Connection diagram
Inverter
(1) In regenerating (charging)
Step-up/-down
two-way Tajubu
Peak power
lowering
Tajubu usually charges
the capacitor.
Access to electricity according
to peak power value is needed
capacitor
The regenerative energy is
absorbed (charged) into the
capacitor through by Tajubu.
The regenerative energy is
consumed as heat.
M
General purpose
(AC) inverter
access to
electricity
(cubicle type)
Electric
double
layer
capacitor
Boost
circuit
(1) In normal operation
At normal operation (with constant motor speed), supply main (AC line)
provides the motor with the power, and in parallel, the electric double capacitor
is charged by TAJUBU.
(2) In peak load time
When large power is required, such as at motor acceleration, “TAJUBU”
provides the power utilizing the energy stored in the electric double capacitor
to cut the peak power in conjunction with supply mains as well.
Step-up/-down two-way Tajubu TBRS-5000/3000-155/320
The step-down part (charging on capacitor)
Input voltage
DC240-420V
Voltage for charging on capacitor
Max DC155V
Output voltage
Capacity for charging on capacitor
Output capacity Max 5kW
The boost part (discharging to the invertor)
Voltage of capacitor
DC240-420V
Input voltage
Output voltage for invertor
Output voltage
Max DC320V
Output capacity Max 3kW
Output capacity for invertor
* Higher power with parallel connection
Changes for setting
voltage and output power
capacity are available at
us. Please contact us.
For customers who have a contracted load system with low voltage for contacted power, with installing equipment having
power cutting function, the contracted power can be lowered to reduce the basic electric power contract fee.
For example,
In the case of installment of three units shown below to compare,
(1) 3 units of 15kW of input peak power with no peak power cutting function
(2) 3 units of 10kW of input peak power with peak power cutting function
Case
Robot : Handling robot
Tajubu in use :
TBRS-5000/3000-155/320 (standard type)
Handling robot
Payload : 200kg
Input electric energy(1 hour) :
DBR (discharge resistance) only【about5.4kWh】
Tajubu+capasitor【about4.3kWh】
47
Reduction of basic electric power contract fee at end users and, an advantage is
brought in to eliminate cubicle when electric power has come down to 50kW!!
When TAJUBU is operated for 20 hours per day, 20
days per month, approx...
a year, electrical bill about 52,000 yen /year
at the rate of 10 yen/kWh
Image
2,900Kg/year of CO2 emission can be reduced!
at the rate of 0.555kgCO2/kWh
When contracted electric power compared between them, 38kW for (1),
26kW* for (2) contributing to 12kW reduction.
Basic charge reduction of
12,000 yen per month
and
144,000 yen per year
charge reduction would be 144,000 yen
based on 12,000 yen per month, 144,000 yen per year respectively. *Calculated based on the information
Providing that basic charge is approx.1,000 yen per month for 1kW,
on Kansai Electric Power Co., Inc. website on the Internet.
Moreover, even in the case that cubicle is required due to the contracted power of 50kW or more, an advantage is brought
in to eliminate the cubicle if the power has come down to 50kW or less by cutting peak power.
48
TBR series
TBR series
Step-up/-down two-way Tajubu for blackout backup
For various uses Step-up/-down two-way Tajubu
With booster type/two-way system TAJUBU and electric double layer capacitor combined, stable energy can
be supplied to loads by compensating insufficient energy even with unstable input such as solar cells.
Multiple applications can be performed by just one TAJUBU, such as absorption and reuse of regenerative energy,
peak-current cutting, backup at blackout in addition to individual application.
At the time of blackout, the motor stops
Power
failure
Motor
M
General purpose
(AC) inverter
Motors can be kept in operation by backup even at blackout
Power
failure
×
Step-up/-down
two-way
Tajubu
Connection diagram
Electric double
layer capacitor
Tajubu charges capacitors
at normal time
Output at the time of the
blackout (the motor) stops
Big
M
Absorption and reuse of regenerative energy,
Peak power cutting,
Backup at power failure
×
General purpose
(AC) inverter
Motor stops
Access to electricity
(cubicle type)
Peak Power cutting
Reuse of
Regenerative energy
Backup time depends on
capacitors connected.
Contact us.
Input electric energy
Heat
Power failure
Regenerative energy is
consumed in heat
Backup at blackout
Motor
By blackout
backup function
M
Reliability
improbement
Tajubu products lineup
Booster type Tajubu
Series
Backup operation at blackout is enforced by 230V output of “TAJUBU"
utilizing the energy charged to electric double layer capacitor
Step-up/-down two-way Tajubu
The step-down part (charging on capacitor)
Max DC155V
Output capacity Max 5kW
Size (W×D×H) mm
Voltage for charging on capacitor
Capacity for charging on capacitor
Input voltage
DC48~160V
Voltage of capacitor
Output voltage
Max DC320V
Output voltage for invertor
Step-up/-down two-way Tajubu
Changes for setting voltage
and output power capacity
are available at us.
Please contact us.
18 - 32V
284V
3.52A
1000W
5.28A
1500W
18 - 32V
140V
7.4A
1000W
11A
1540W
Case
Two-way system TAJUBU is now in operation at Earth Port (Minato-kita NT building, TOKYO GAS Co., Ltd.) Earth Port is an energy
saving building of Tokyo Gas which has realized energy and CO2 saving by introducing gas-engine cogeneration system, and utilizing
natural day lighting, natural ventilation, and photovoltaic generation.
Tajubu in use:
Modified version of TBRS-5000/3000-155/320
(10 units in parallel connection)
Use: Supplement of solar cell energy
Earth Port
Concept: Stable electric power is delivererd by Tajubu and battery
supplementing unstable power generation by photovoltaic generation.
Max 10s
Max 10s
Max 5s
Max 5s
290×200×80
330×200×175
290×200×80
290×200×80
TBRS-5000/3000-155/320
Series
Electric double layer capacitor
Contact us!
This product is a basic specification
product for regenerative energy
absorption and reuse.For other
applications such as input voltage
change and peak power cutting, please
contact us as specification can be
modified. Also, electric double layer
capacitors can be discussed. Contact
us first
Boost part (discharging to the inverter)
Input voltage
240 - 420V
Input voltage
48 - 160V
Output voltage
70V(input 340V max)/155V(input 340V minimum)
Output voltage
230V(input 80V max)/320V(input 80V minum)
Output (charging)
current1
Output (charging)
current2
20A minimum (output in 0 - 70V)
60A minimum(output in 83V max)
Output (charging)
current
Maximum
output voltage
1500W(output in 230V)/2080W(output in 320V)
Peak output voltage
(max 10s)
5kW minimum (output in 83V minimum)
Operation image
Output capacity for invertor
Step-up/-down two-way Tajubu
TBRS-5000/3000-155/320
Fluctuating
solar cell energy
37 - 63V
284V
14A
3976W
30A
8520W
Step-down part (charging on capacitor)
Electric double layer capacitor
*Higher power with parallel connection
Energy supplement by
Tajubu and battery
To secure
stable output
37 - 63V
284V
7A
1988W
16A
4544W
*TB4D-4000-280 is a parallel connection type of two TB4D-4000-280s.
*Contact us as input voltage, etc. can be modified.
The boost part (discharging to the invertor)
Output capacity Max 3kW
TB2S-1500-140
24V
Maximum peak output
current/voltage
(2) In peak load time
Output voltage
TB2S-1500-280
24V
Maximum continuous output
current/voltage
At normal operation (AC operation), electric power is delivered to motors
by supply mains (AC line) and at the same time, the electric double layer
capacitors are charged by “TAJUBU.” Besides, the output voltage of
“TAJUBU” is raised up to 230V to stand by.
DC245~340V
TB4D-4000-280
48V
Output voltage (DC)
(1) In normal operation
Input voltage
TB4S-2000-280
48V
Range of input voltage (DC)
-IN
Boost
circuit
Electric
double layer
capacitor
Absorption of regenerative energy
Rated input voltage (DC)
Electric double
layer capacitor
or, batteries
(for a long period
of time backup in
minute order)
*For details to p.51
Step-up/-down
two-way booster
Tajubu
Peak power cutting at normal operation
Charging of the power at blackout backup
Peak power
Three-phase
input
Step-down
circuit
Motor start-up
As with other connections, simply connecting capacitors and loads with TAJUBU
Voltage setting and capacitors are adjustable at us. Please contact us.
(2) Blackout
time
Step-up/-down two-way Tajubu
M
Inverter
(1) Normal time
+IN
Motor
Power
failure
Load power
Shift to backup at nonstop
Input electric energy
Motor
General purpose
(AC) inverter
M
Motor start-up
Power for charging
Backup at blackout
Load power
Regenerative heat consumption,
Peakpower,
No power failure
Motor
General purpose
(AC) inverter
Motor stops
Power
failure
Output: DC0V->70V 20A minimum
Capacitor initial charging
Step-down
circuit
Boost
circuit
Step-down
Boost
Input: DC48V - 80V
60A max/5kW
Regenerative energy is absorbed in capacitor
Input: DC80V - 155V
Peak output current
Peak output voltage
10A
3200W(output in 320V)
Step-up/-down two-way Tajubu
Step-down part output
Boost part input
Step-down
(Electric double layer capacitor)
Output: DC155V max
6.5A
Step-down
Boost
Boost
Step-down part output
Boost part input
(Rectified voltage by inverter)
Input: DC240V - 340V
Voltage after smoothing when AC200V is connected to inverter
Output: DC230 6.5A max (1500W)
Voltage for the purpose of backup at AC power failure
Input: DC340V - 420V
At regenerative energy (voltage) occurred
Output: DC320V peak10A (3200W)
Efficient use of regenerative energy
*For detailed specification of the product, refer to product specification
49
50
Recommendation of a long time backup for large machineries
Entrust us, Nipron, for Robots (large machineries) backup at power failure!
Let us propose to you Nipron’ s backup system with booster-/step down-type two-way TAJUBU, electric
double layer capacitors and battery built in. With this backup system, in addition to possible cost reduction,
absorption and reuse of regenerative energy of robots are achievable as well as backup at power failure
when compared with existing UPS (uninterruptible power supply) system.
0
0,00
,
)
00
,000
¥4 5, mination
(Our exa
Our examination
No regenerative discharging resistors required
(efficient use of regenerrative energy)
In AC operation
System configuration chart
+
HV
relay
-
3φ
AC200V
Backup system with UPS
W
20k000~
System operation
INV.1
M
INV.2
M
INV.3
M
INV.4
M
INV.5
M
INV.6
M
INV.7
M
(3φAC400V is ok)
Backup comes to be available for
a wide range of equipments
including controller power source
resulting in whole system backup
at blackout.
Control box
DC
/
DC
In AC operation: step-down
In regeneration: step-down
charging the capacitor
Inverter
M
INV
Charging
IN
Step
down
/
boost
OUT
At blackout in
motor start-up: boost
COM
UPS(image)
Robot (image)
intaractive
Tajubu
long blackout backup
lasting for minutes
Backup operation for
several seconds to some
tens order at power failure
of AC supply mains
■ Running on AC
Charging battery by voltage step-down operation
Nipron backup system
battery
and
capacitor
Control box
Step down/boost
intaractive Tajubu
■ In braking motor time (in regeneration)
Electric double layer capacitors to be charged by
regenerative energy with voltage step-down function
■ In motor start-up
Power to be assisted by capacitors with booster operation
■ At blackout
Inverter
M
INV
Intaractive
Tajubu
Backup power to be delivered by capacitors and battery
with booster function
Example of 20kW backup system configuration
(Configration is at your discretion.)
20kW 00~
,0
00
¥1,3
【Intaractive Tajubu product examples】
Battery
and
capacitor
Robot (image)
Nipron backup system
・At blackout (boost operation): DC96V⇒230V
・Power:20kW, efficiency:about 95%
・In regeneration (step-down operation)
DC340 420V->182V power:20kW
・Size (mm):420×200×290
fa
ple o
Exam W
20k 00~
,0
00
¥1,3
For long time
Connection image
Nipron backup system
Battery
and
capacitor
Intaractive
Tajubu
Charging
Battery
and
capacitor
Controlbox (image)
51
IN
Step
down
/
boost
Nipron backup system
COM
Simply connected with two wires
as external options
For short time
Regenerative energy
absotbtion
OUT
Let us propose to you a system
most suitable for backup of
robot system at power failure.
Contact us.
【Lead battery example】
・Rated voltage: 96V (12V×8series connection)
・Capacity: 100Ah
・Backup time: about 6minutes (20kW/h)
・Size(mm): 338×170×215(×8)
Intaractive
Tajubu
【Capacitor example_A】
・Rated voltage: 202V
・Capacity: 1.8F
・Backup time: 0.5~1 second (20kW/h)
・Size(mm): 143×305×190 (×8)
【Capacitor example_B】
・Rated voltage: 160V
・Capacity: 3.7F
・Backup time: 0.5~1 second (10kW/h)
・Size(mm): 266×39×316
52
Tackling Smart Grid
Primary Redundant
Global Environment Improvement with Green Energy Leveraged
Primary redundant power supply is redundant power supply that only primary side is redundant and secondary side is common realized by
Nipron’s unique circuit technology. Improving reliability of primary side that is likely to be damaged by surge stress caused by lightning surge
and high-voltage switching circuit including PFC circuit, and thermal reliability, this brand-new redundant power supply is designed to have
more reasonable margin than normal redundant power supply (full redundant power supply) even in a limited space.
Further, this product flexibly responds to coming “Smart Grid” era by changing the primary unit of primary redundant power supply to enable
disparate inputs such as new energy of solar cells and HVDC to be connected.
Featuring Smart Grid
Primary redundant system
“Smart Grid,” present-day topics for next generation power grid
Smart grid is power distribution system with
high-efficiency/-quality/-reliability that enables automatic power
adjustment from both sides of demand and supply by controlling
existing electric power, such as thermal power, hydraulic power, and
renewable energy such as photovoltaic power generation through IT.
Loss:
Small
Primary side unit
PFC
Connector
current: Small
Existing full redundant power supply
Capacity:
Large
PFC
Inverter
Through this tackle on global environment issues, it is counted on as
21st century social infrastructure to bring in CO2 emission reduction
and power demand leveling.
Inverter
PFC
Connector
current: Large
Secondary
side
circuit
Inverter
Secondary
side
circuit
PFC
Loss:
Large
Capacity:
Small
Secondary
side
circuit
Inverter
Fuel cell
Fuel cell
Secondary side unit
Under the situation like that, we are on the way to contribute to global
environment improvement through Smart Grid system, as the solution
to environment issue, developing “SUN Tajubu,” energy converter
equipped with MPPT control, which allows maximum of the power
from solar cells delivered to HVDC in addition to power supply for
server which can connect non-commercial power such as green
energy like solar cells and HVDC (High Voltage DC power feeding).
Change the primary unit and disparate
input connection will be on hand!
Primary side
Nipron’s environment-friendly products
Standard product
Supply mains
By changing primary unit in primary redundant power supply,
disparate inputs such as natural energy (photovoltaic cells, wind
generation, etc.) and HVDC become acceptable. For example, by
inputting two disparate inputs, commercial input + natural energy
(photovoltaic cells), reduction of CO2 emission is expected
utilizing best mix. Burden ratio between two type of inputs
(disparate inputs) is adjustable by external
signal so that CO2 emission minimization
program becomes available. In addition,
secondary unit for single output (12V, 48V)
and ATX specification can be ready.
Secondary side
PFC
Secondary
side
Inverter
(+3.3V,+5V,
+12V,-12V,
+5VSB)
Natural energy/ Development scheduled
Battery pack
Primary side unit (DC input)
DC48 etc.
Step up
booster
ATX output
+3.3V
+5V
+12V
-12V
+5VSB
Secondary side unit
(ATX output)
Primary side unit (ACinput)
AC100/200V
Standard
product
Inverter
Single outout
Secondary side unit
(Single output)
Development scheduled
HVDC
(DC feed)
Primary side unit (DC input)
DC360-400V
+12V
(Standard product)
Secondary
side
or
+48V
(+12V
or +48V)
Inverter
(Development
scheduled)
Environment-friendly power supply
for server which allows disparate inputs
In case input from both
supply mains and solar
supply
mains
Primary side unit
HVDC
Operation priority signal
Secondary
side
circuit
Supply mains
(AC100V/200V)
Primary side unit (AC input)
Primary side unit
PFC
Utilization of
natural energy
Inverter
Secondary
side circuit
Solar cell
Primary Redundant
Utilization of
nighttime power
Utilization of
natural energy
Secondary side unit
(ATX input)
(+3.3V,+5V,
+12V, -12V,
+5VSB)
Primary side unit (DC input)
Multiplex
step-up booster
Inverter
Daytime
Daytime
Night
pNSP2U-1000P
At normal operation, energy source alternates between commercial power and photovoltaic cells. By using operation first signal, either
of those sources can be given priority in operation for effective use. For example, photovoltaic cells comes first during daylight(*), and in
the night commercial power comes first utilizing midnight power effectively.
(*) In the case that power is not available from photovoltaic cells, feeding is switched automatically to commercial source.
Energy converter equipped with MPPT control
to utilize maximum of the solar cell energy
Product lineup
pNSP2U-330P-AAS
Model
Low input
voltage
Ex.250V
Boost
circuit
MPPT
COM
SUN Tajubu
53
Voltage
OUT
IN
High output
voltage
+3.3V +5V
Max current/
power
(Continuous)
10A
Peak current/
power
(Within 5s)
15A
Min current
0A
WxHxD (mm)
18A
+5V +12V1 +12V2 +12V3 -12V +5VSB +3.3V +5V
0.5A
2A
20A
6W
10W
0.5A
2A
6W
10W
0A
0A
20A
25A
312W max
18A
0A
10A
0.5A
2A
6W
10W
0.5A
2A
20A
20A
18A
12A
16A
21A
108 x 83.8 x 300
0A
0A
0A
-12V +5VSB +12V +5VSB
63.3A 0.5A
21A
66A
10W 69.3W 105W 792W
550W max
0A
+12V
pNSP2U-1000P-AAS(12)
6W
2A
10W
0.5A
2A
6W
10W
108 x 83.8 x 400
0A
0A
0A
0A
0A
0A
2A
83A
2A
996W 10W
1006W max
982.3W max
0A
66A
792W 10W
802W max
775.6W max
6W
44A max
25A max
20A
66W 100W 759.6W
427.6W max
20A
328W max
0A
12A
35A max
25A max
276W max
15A
pNSP2U-1000P-AAS
-12V +5VSB +3.3V
260W max
Ex.400V
COM
+12V
10A
pNSP2U-550P-AAS
0A
0A
0A
108 x 83.8 x 350
TBM series
54
SUN Tajubu
Adoption Examples
“SUN Tajubu” is here for you, installing MPPT circuit which derives maximum power form solar cells to “Tajubu,” DC-DC converter,
which has realized high efficiency and compact equipped with Nipron’s original multiple boosting circuit.
“SUN Tajubu” is an energy converter to deliver maximum power from solar cells to HVDC (high voltage DC power feeding) line.
HVDC380V
High-voltage
direct current
(HVDC)
DC400V
Booster
type
Tajubu
SUN
Tajubu
Solar cells
TBM series
Fuel cell
Booster
Type
Tajubu
TB series
Wind power
Once solar cells start generation of electricity, “SUN Tajubu” starts
boosting operation to supply DC 400V in priority to HVDC line.
When load power of HVDC exceeds generated power of solar cells,
“SUN Tajubu” decreases output voltage controlled by MPPT while
adjusting the power for HVDC to start power feeding so that maximum
power from solar cells is delivered.
“SUN Tajubu” has realized stable operation in delivering the maximum
power from solar cells to load power of HVDC so that power shortfall is
always controlled to be supplied from HVDC.
Also, Tajubu can efficiently
deliver green energy such as
fuel battery and wind power to
DC power feeding line.
"Tajubu” has been adopted by JX Nippon Oil & Energy Corporation in “Environment-friendly
multi-energy system” for domestic use.
"Tajubu” has been adopted by JX Nippon Oil & Energy Corporation in “Environment-friendly multi-energy system” for domestic use.
For the purpose of converting the electric energy of solar cells, wind generation, and batteries to domestic-use energy, 6 units in total of
“SUN Tajubu” and “Booster Tajubu” have been implemented.
“Environment-friendly multi-energy system” has now become next generation multi-energy system which connects solar cells, wind generation
and lithium battery in DC mode to feed the energy in DC mode for domestic use.
This enables to control power generation/charge/discharge of each equipment in response to load factor and purveys necessary power and hot
water required at home including fuel battery (ENE FARM).
Additionally, by installing HEMS (Home Energy Management System) that shows status of use for the power and hot water on the monitor,
energy is visualized as well. Further, another significant feature is that it supplies electricity and hot water even at blackout of system power supply.
“Environment-friendly multi-energy system” for domestic use is implemented at “GREENY Gifu” which has been opened in Gifu city on November
5, 2010 as a stronghold of Gifu prefecture next generation energy infrastructure concept.
TB series
Diagram of "Environment-Friendly Multi-Energy System” for domestic use
For the purpose of converting the electric energy
of solar cells, wind generation, and batteries to
domestic-use energy, 6 units in total of “SUN
Tajubu” and “Booster Tajubu” have been
implemented.
<Specification example>
Input
Output
Efficiency
DC200V-DC395V
DC400V 10A 4000W
97% typ
* As the specification change is
available to meet your system, please
contact us.
Power control
AC
AC
“GREENY Gifu” appearance
GREENY Gifu
Air conditioner, Microwave
Wireless
Refrigerator, TV, lighting
Wireless
DC
DC connection
(DC bus)
Photovoltaic generation
(1.26KW)
LED lighting
Well-sealed room
Super-insulated house
System power supply
Hot-water supply, Bath
Heat exchange type ventilating fan
Photovoltaic generation
(5.04KW)
Charging and
discharging
Visualization of Energy
What is MPPT control?
Fractal sunshade
Heat reflecting tile
Battery
(9.7KWh)
Wireless
MPPT stands for Maximum Power Point Tracking meaning tracking the maximum power point.
MPPT control refers to the control to track the maximum power point (optimal operating point) of the solar cell.
Solar cell has the characteristics that the current derived is determined by the load voltage connected.
In order to efficiently draw the energy from solar cell, load voltage connected to the solar cell needs to be
controlled so as to make the power maximum. This control is referred to as MPPT control.
Small wind generation
Green fence
Vacuum insulation glass
Photovoltaic
generation
6.3kW
Wind
generation
4kW
Battery
Fuel cell
(Lithium-ion battery)
(PEFC)
9.7kWh
0.75kW
Tanks for holding rainwater
HEMS (Home Energy Management System)
Electric car
Fuel cell for domestic use
(ENE FARM)
Bird bath
“Bi-directional Tajubu” is adopted in “Earth Port” Kouhoku Building, TOKYO GAS Co., Ltd.
“Bi-directional Tajubu” is adopted in “Earth Port” Kouhoku Building, TOKYO GAS Co., Ltd.
Fluctuating photovoltaic energy is complemented by the combination of Tajubu and Battery to feed the stable power.
Just one unit can handle charging/discharging battery with “Bi-directional Tajubu.”
What is Tajubu?
Features
Booster type Tajubu
Adopting Nipron’s original multiple boosting circuit,
ompact/High efficiency (92 to 97*%) has been
brought. *depending on the difference between
input and output voltage.
With 2-stage boosting circuit adopted, total
efficiency has been improved as most suitable
devices are used for the first and the second
channel respectively.
Parallel operation is available (we have the track
record of up to 10 units in parallel operation.)
More than double peak current of rated output
(with in 10 seconds)
Higher reliability due to PCB coating
Lined up as standard products in stock feature
“Tajubu” (booster type) is DC-DC converter with multiple boosting system, and converts
low DC input voltage to high DC voltage easy to use with high efficiency (92 to 97*%).
* depending on the difference between input and output voltage.
Converts low DC
voltage such as
atteries
+
Batt
-
OUT
Boost
circuit
COM
High
voltage
output
power
COM
to easy-to-use high DC
voltage with high
efficiency
Step-up/-down two-way Tajubu
Step-up/-down two-way Tajubu, with both of multiple booster circuit and multiple
step-down circuit adopted, has realized two-way operation to charge capacitors (step
down) and discharge to equipments from capacitors (step up.) With this two-way
Tajubu implemented, system configuration such as absorption/re-use of regenerative
energy, cutting of peak power, and back up at blackout can be easily built.
Electric double
layer capacitor
Step-down
circuit
IN
OUT
Step-up
circuit
COM
55
COM
Automatic charging and
discharging by detecting
voltage (also, control by
signal input is available,)
brings simple connection
only between capacitors
and loads.
Letter stage
boost circuit
Most suitable devices are selected for the
first and the second channel respectively.
- Total efficiency up
- Achievement of high voltage and high power
In Nipron' Tajubu as shown below, it has multiple bootstrap circuits in parallel to control
on time of each circuit. It boosts input voltage 10 times or more as high to provide
maximum continuous power, 2 to 10kW, with ultra high efficiency (94 to 97%) without
electrolytic capacitors. In addition, several multi-boost circuits are connected in series
as shown in the block diagram to gain high voltage and large current with stable output
regulation in a comprehensive shift-control way. Also, for several applications, it has
ability to achieve constant voltage and current in various methods.
Front stage
boost circuit
OUT
IN
Front stage
boost circuit
Ln
Ln'
L2
L2 '
L1
L1'
+IN
SW1 SW2
SWn
SW1' SW2'
* Comprehensive Assessment System for Built Environment Efficiency (CASBEE)
This method is to evaluate environment efficiency of architectural structures and rank them in five ranks among “S rank (splendid)," “A rank (very good),” "B+ rank (good),” “Brank (rather poor),” and “C rank (poor).”
Photovoltaic
generation
20kW
Two-way type
Tajubu
+OUT
SWn'
Ein
-IN
-OUT
Voltage stabilizing circuit/Drive circuit/Protection circuit
Ripple current
diminishes canceling
each other.
“Earth port” appearance
Power
System power supply
Power
Battery
tails
De
AC/DC
Converter
Letter stage
boost circuit
Load
IN
Low
voltage
input
power
The “Earth Port” is an energy-saving and CO2 reduction building that implemented an advanced energy utilization system such as natural
daylighting, natural ventilation, and photovoltaic power generation. This building has been awarded many awards including
Environment/Energy-saving Architectural Award Construction Minister Award in 1997, and has been ranked S class in according to
Comprehensive Assessment System for Built Environment Efficiency (CASBEE)*1.
Energy supplementation
by Tajubu and battery
Keep stable output
Fluctuant solar cell energy
Battery
- High efficiency in compact size
56
Multi-output switching power supply
composed of DC-DC step-down chopper units!
Featuring DC-DC step-down chopper units
For customers who need multi-output switching power supplies, let us introduce
our DC-DC step-down chopper units. Multi-output switching power supplies are
demanded for measurement-related equipments in particular.
In response to the demand, various multi-output switching power supplies with
high efficiency and stability become available by using DC-DC step-down chopper
units, PS5114 series, which are built as standard in our ATX power supply.
So this time, let us introduce the features, characteristics, models equipped with
chopper units, and examples of use of DC-DC step-down chopper unit, PS5114
series.
Outline of PS5114 series
Line-up chart
Model
Output voltage Load current
Synchronization
Standard
signal※ Price
Input voltage
PS5114-3R3-M +3.3V±5% 10A
DC10V~27V
PS5114-5-M
+5V±5%
DC10V~27V
PS5114-12-M
+12V±5% 10A(14Apeak) DC15V~27V
PS5114-15-M
+15V±5% 7A
10A
DC18V~27V
PS5114-3R3-S +3.3V±5% 10A
DC10V~27V
PS5114-5-S
+5V±5%
DC10V~27V
PS5114-12-S
+12V±5% 10A(14Apeak) DC15V~27V
PS5114-15-S
+15V±5% 7A
※Keep input current at under 6A.
10A
Master type
(Sends
synchronization
signal)
1,800
yen
Slave type
(operates in
synchronization
by signal)
1,800
yen
DC18V~27V
※+15V output type is under development.
※ About synchronization signal
Main unit contains “master type” which outputs
synchronization signal and
“slave type“ which is received the synchronized
signal from “master type” and operates
synchronous.
For multi-output configuration with multiple units, choose
one master type and slave type for others, and connect
oscillation frequency synchronization terminal (Pin8) of
each unit.
This enables each unit to synchronize in normal operation.
If only one unit is used, select master type.
Circuit diagram,External dimensions・Terminal allocation/Terminal function
M2.5 Mounting hole
Pin 1
Pin 2
Principle of DC-DC chopper circuit
DC-DC chopper circuit is simply composed of switching devices, a choke coil, and a capacitor. With the switching devices turned on and off
(chopping), dc voltage is stepped down or boosted.
In ON/OFF control (chopping) of switching device, the longer on-time of switching device, the higher output voltage is, and vice versa. Thus,
the necessary output voltage can be gained by controlling the ON/OFF time, duty cycle which is ON time ratio in one cycle.
Our PS5114 series is step-down chopper units.
Pin
Pin
Pin
Pin
Overcurrent
setting
過電流設定
temperature
温度補正回路
compensation
circuit
11
12
13
14
45mm max
(15mm)
Pin 8
DC-DC chopper circuit/Principle
L IL
SW1
SW1 OFF when
the current path
(SW1 OFF-Time,
SW2 is ON)
VS2
Vi
Io
+
R
C
(load)
Vo
SW2
Fig. 1 Basic circuit diagram of step-down chopper
ON
Voltege VS2 Vi
Current I L
OFF
ON
OFF
ON
OFF
Vo
Io
Ton
Toff
T
Fig. 2 Operation waveform
The basic circuit diagram of step-down chopper by FET device
is shown in the Fig.1 on the left.
Here, V1: supply voltage, SW1/SW2: switching devices,
VS2: voltage between Drain and Source of SW2,
Ton: On-time of SW1, Toff: Off-time of SW1
Provided that each device operates ideally, when each device
repeatedly turns on and off in T cycle as shown in Fig.2,
output voltage Vo becomes the average of VS2, and
described by a formula below.
Ton
Vo = Vi ×
T
When dc voltage is turned on and off (chopped) by switching
device SW1, the output voltage turns on and off, and the
current flows like sawtooth wave.
To smooth the voltage and the current, choke coil L, switching
device SW2*, and capacitor C are used.
※ SW2 may be a diode, but as it causes a voltage loss due to
its forward voltage, FET is preferred same as SW1.
Our PS5114 series use FETs operated in synchronous
rectifying mode to reduce losses for higher efficiency.
Pin
Pin
Pin
Pin
3
4
5
6
Pin 10
Pin 7
Pin 9
Pin No.
1,2
3,4,5,6
7
8
Function
DC input(+side)
GND
Input output ON/OFF controlling signal (L: output ON, H: output OFF)
Oscillation frequency synchronization signal (master type: output
synchronization signal, slave type: input synchronization signal )
Master type provides synchronization signal (133kHz±12%) to slave type.
With each unit synchronized in operation, disordered oscillation
affected by ripples, etc. is avoided and noise is reduced as well.
In this series, we have a master unit which sends synchronous
signal and a slave unit which operates synchronously with the
signal from the master unit.
Large capacitance polymer capacitors are used as
input/output capacitor.
Large capacitance polymer capacitors are
used as input/output capacitor. Because its
input/output impedance is low, it operates
steadily with dynamic load and allows high
ripple current so that long-term life is
realized even under high temperature
operating condition.
57
High efficiency with using synchronous rectifier circuit
With synchronous smoothing circuit adopted, high efficiency
has been brought because loss due to forward voltage of diode
is removed and switching loss is minimized by adoption of low
ON resistance switching device.
2.50mm×13=32.5mm
(9mm)
Board hole diameter 1mm
※Acceptable current per Pin is 3A max.
Connected Image
■About reference voltage(5V) input
+5V applied to Pin9 is used as reference voltage for temperature
compensation of overcurrent protection value, etc.
When 5V is delivered by 3-terminal regulator, use the
specification of 5V 100mA or so.
Be easy to change the startup timing
With constant of internal components changed, the startup
timing of multi-outputs can be easily changed.
For controller boards, troubles often happen as its initial reset is
determined based on startup waveform and its timing variously.
In that case, startup timing of each output should be organized
at power supply side to meet the characteristics of each board.
Pin 14
Pin 1
5V±5% input standard voltage (temperature adjustment of over current setting point)
9
Sensing for output voltage feedback
10
11,12,13,14 DC output(+side)
DC-DC step-down chopper units PS5114 series Features
Chopper unit can synchronize at between each other.
42mm±0.5mm
SW1 ON when the current path(SW1 ON-Time,SW2 is OFF)
DC input
(+)
ON/OFF
signal input
Frequency
synchronization signal
DC output
(+)
Pin 1 2 3 4 5 6 7 8 9 10 11 12 13 14
Input
capacitor
Output
capacitor
(Master type:Output
Slave type:Input)
GND
GND
reference voltage(5V) input
■About Input capacitor
Input capacitor is required for stable operation in the case of
long input wiring.
Capacitance may vary due to wiring condition. Normally
electrolytic capacitor with around 1000uF is used.
■About Output capacitor
Output capacitor has no condenser capacity at load side.
Please connect 470μF level of capacitor or larger electrolytic
capacitor between output and GND if output ripple/spike are
large.
58
Property data (Example of experiment)
● Efficency / Input Current Vs. Output Power
Output Voltage(V)
12V
5V
70
Output 10A
14
90
80
With 24V output power supply and PS5114 series combined, AC-DC switching power supply with multi-output can be
configured. As shown below, multi-output of 12V, 5V, and 3.3V is configured with OZP-200-24 as 24V power supply.
● Output voltage / Input voltage characteristics
Input DC24V
100
Efficency(%)
Configuring AC-DC switching power supply with multi-output
Connection example
12
10
12V 10A
5V 10A
3.3V 10A
8
+24V
OZP-200-24
GND
6
AC85V~264V
4
3.3V
Model:PS5114-12-M
Master type
2
60
0
2
4
6
8
0
10
5
10
15
24V Input
(5V/div)
Input DC24V
Output 10A
Time axis 20ms/div
24V Input
(5V/div)
20
25
30
1 2 3 4 5 6 7 8 9 10 11 12 13 14
● Ripple and Spike Voltage
Input DC24V
Output 10A
Time axis 2μs/div
24V Input
(5V/div)
ON/OFF *2
3.3VOutput
Model:PS5114-5-S
Slave type
*1 When wiring from output terminals of
OZP-200 to input terminals of PS5114
series is long, connect an electrolytic
capacitor with approx. 1000uF close to
input terminals for stable operation of
PS5114.
(50mV/div)
5V Output
(1V/div)
*1
(50mV/div)
5VOutput
3.3V Output
(0.5V/div)
GND
Input Voltage(V)
Output Current(A)
● Rising Characteristics
+12V
*3
12V Output
(2V/div)
GND
1 2 3 4 5 6 7 8 9 10 11 12 13 14
*2 For startup with AC input, connect this
terminal to GND.
12VOutput
+5V
*3
*1
ON/OFF *2
(50mV/div)
Measuring connected an electrolyric capasitor with output.
● Dynamic Load Function Characteristics At 1kHz
Input DC24V
Output 4A⇔10A
Time axis 200μs/div
● Over Current Protection (V-I)
3.3V Output Current
(10A/div)
5V Output Voltage
(200mV/div)
5V Output Current
(10A/div)
Output Voltage(V)
3.3VOutput
Fin temperature: At 0℃
3
Fin temperature: At 25℃
Fin temperature: At 50℃
2
6
12
Fin temperature: At 0℃
Fin temperature: At 50℃
3
12V Output Voltage
(200mV/div)
(10A/div)
14
Fin temperature: At 25℃
0
0
【Over current point】
Fin temperature: At 0℃-18.5A
Fin temperature: At 25℃-18.2A
Fin temperature: At 50℃-17.2A
10
8
4
1
【Over current point】
Fin temperature: At 0℃-16.3A 2
Fin temperature: At 25℃-15.6A
Fin temperature: At 50℃-14.7A
5
10 15
0
Output Current(A)
*1
ON/OFF *2
Standard voltage (5V)
Fin temperature: At 0℃
Fin temperature: At 25℃
Fin temperature: At 50℃
6
2
5
10 15
0
Output Current(A)
* As for remarks regarding pattern designing
of PCB, reference material is to be
submitted when production of multi-output
power supply using PS5114 series is
substantiated.
12VOutput
7
4
1
12V Output Current
5VOutput
5
Please contact us
【Over current point】
Fin temperature: At 0℃-20.8A
Fin temperature: At 25℃-19.3A
Fin temperature: At 50℃-18.5A
5
10 15 20
Output Current(A)
Measuring connected an electrolyric capasitor with output.
Ceramic capacitor
(Approximately 0.1μF)
For multi-output power supply
development using PS5114 series,
please contact us any time as we
can handle it depending on the
contents.
PS5114 Pin Assignment
Please make a equipping radiation fin and enforcement air cooling and reducing of output power as well for ambient temperature due to
keep the increase in temperature threshold limit value at indicated temperature of element below.
■Lifetime of polymer capacitor
FET(Q1)Heat sink
105℃ max.
Output capacitor(C15)
105℃ max. (Using 125℃ product)
Input capacitor(C1)
105℃ max.
(Using 125℃ product)
Output capacitor(C17)
105℃ max. (Using 125℃ product)
Output capacitor(C16)
105℃ max. (Using 125℃ product)
59
Generally, the lifetime of electrolytic capacitors follows Arrhenius equation, double
chemical reaction for every 10℃* meaning double lifetime with 10℃ less. For
polymer capacitors, as 20℃-10 times lifetime rule* meaning 10 times lifetime with 20
℃ less is applied, lifetime difference becomes larger when temperature is reduced.
For example, when a capacitor with the same 105℃ 5000 hrs rating is used,
polymer capacitor achieves 50,000 hours at 85℃, and 20,000 hours for electrolytic
capacitor on the contrary. The lower the temperature, the longer the lifetime of
polymer capacitor is.
For PS5114 series, polymer capacitors with 105℃ (125℃product) 5000 hrs rating
are used.
(*) Applied to the environment under 105℃
Three terminal regulators
(Approximately +5V 100mA)
+5V
IN OUT
Ceramic capacitor
GND
(Approximately 0.1μF)
GND
Temperature rise limit/Temperature measurement point
Inductor(L1) ※Side part
105℃ max.
+3.3V
*3
GND
Temperature correction available. (apply 5V standard voltage to Pin9 )
(200mV/div)
Model:PS5114-3R3-S
Slave type
1 2 3 4 5 6 7 8 9 10 11 12 13 14
Input DC24V
3.3V Output Voltage
*3 In the case that output ripple/spike
becomes high due to no capacitor
connected to load side, connect an
electrolytic capacitor with 470uF or larger
between output and GND.
105-Tx
20
※Formula of lifetime of polymer capacitor: Lx=5000×10
Tx : Measured temperature
Calculation example : Tx=85℃ ⇒ lifetime = 50,000 hours
Spec Sheet
Input
AC input
85 to 264V(worldwide range)
Output
Output voltage
+3.3V
+5V
+12V
+24V
Max. current/
Max. power(continuous)
10A
10A
10A
8.4A
OZP-200-24Output under 201.6W
Peak current/
Peak power(within 5s)
10A
10A
14A
16.7A
OZP-200-24Output under 400.8W
Min. current
0A
0A
0A
0A
Pin No.
Function
1,2
DC input(+side)
3,4,5,6
GND
7
8
Input output ON/OFF controlling signal (L:output ON, H:output Off)
9
Oscillation frequency synchronization signal (master type:
output synchronization signal, slave type: input synchronization signal )
Master type provides synchronization signal (133kHz±12%) to slave type.
5V±5% input standard voltage
(temperature adjustment of over current setting point)
10
Sensing for output voltage feedback
11,12,13,14 DC output(+side)
※Acceptable current per Pin is 3A max.
60
Our product lineups using DC-DC step-down chopper unit PS5114 series
AC input
Output voltage
CSA
+3.3V
10A
Max. current/
Max.power
(Continuous)
Peak current/
Peak power
(within 5s)
0A
Main
Output
connectors
Peak
160W
220W
(20+4pin)
1.8A
0A
0A
Contact us for chassis in response to
SFX mounting face as we can handle
it depending on the contents.
3
12V
(4pin)
1
S-ATA
(Basic
configuration)
Time at
natural air cooling
(Exclusive heat sink
attachment)
At the time of forced
air cooling using a
external fan*1
Peak current /
Peak power
(within 5s)
Model
90W
180W
Continuous
PCFD-180P-X2S
Peak
Time (min.)
Size:92.5 (W)×159.5 (D)×23.7 (H)
Small size Ni-MH battery pack
-12V
+5VSB
7.5A
0.3A
1A
Within the limits of output power restrictions (Max.150W)
10A
10A
15A
0.3A
1.8A
Within the limits of output power restrictions (Max.180W)
0A
0A
0A
0A
0A
93×55×160
*1 In forced air cooling, air flow if 0.5m3/min. more ti parts syrfaceus reqyured.
Output
connectors
(Optional)
Main
(20pin)
5
Main
(24pin)
1
S-ATA
4
Compatible battery pack
With medical standard compliant 24V output power
supply connected, medical standard compliant ATX
output power supply is at hand.
25
20
PS5105/PS5105-02
5
BS03A-H16/2.5L
0
60
Size:101.5 (W)×175 (D)×25 (H)
100
80
120
140
160
Load (W)
Installable for 3.5inch bay,
small size Ni-MH battery pack
Output power cross regulation
200
10
Backup operation during blackout
is possible
20~36V
+12V
Within the limits of output power restrictions (Max.102W)
10A
10A
10A
0.3A
1.5A
Backup function at blackout
30
15
Achieved 90% high efficiency at back up operation.
Palm size
CCC
Discharging characteristic of Battery backup
35
Palm size PC power supply, complying SFX 12V standard
CE
Within the limits of output power restrictions (Max.90W)
10A
10A
8.5A
0.3A
1A
70W Max.
DC24V Input Fanless ATX Power Supply
Compatible battery pack
EN
+3.3V
+5V
10A
10A
60W Max.
Time at natural
air cooling
Min. current
W×H×D (mm)
4
BP03A-H16/2.5L
20+4 pin is adopted as main connector.
0.3A
DC input
Output voltage
CSA
*The backup time is only for reference
at initial use, NOT guaranteed.
*Line charts shows time length from
blackout to power supply shutdown.
Transforming peripheral connector to 12V power connector.
Length of harness :80mm (PS5105)
320mm (PS5105-02)
BS17A-H24/2.0L
Peak power (within 5s)
Using a external fan
160
Natural air cooling
(Exclusive heat sink attachment)
Natural air cooling
(Basic structure)
120
Installable for 3.5inch bay, Ni-MH battery pack
Discharging characteristic of Battery backup
35
30
100
90
Time (min)
Continuous
+5VSB
1.5A
+12VOutput (W)
NSP6F-220P-S10
CCC
100×63.5×145
W×H×D (mm)
Model
CE
Total160W Max.
10A
14A
Total220W Max.
0A
0A
10A
Min. current
EN
85~264V (worldwide range)
+5V
+12V
-12V
10A
0.3A
10A
UL
Safty standard
/ Max. power (Continuous)
Max. current
UL
Safty standard
SFX size,
Compact Nonstop Power Supply
DC24V Input Fanless ATX Power Supply
80
60
50
25
20
15
40
10
15
5
0
70
0
94.1 95.6
20
40
60
80
Total output of +5V, +3.3V, -12V, +5VSB (W)
0
20
100
40
60
80
100
Load (W)
Natural air cooling design,
Fanless ATX Power Supply
PCFL-180P series
Continuous
Peak
/ Max. power (Continuous)
Max. current
Model
AC input
Output voltage
PCFL-180P-X2S2
PCFL-180P-F1S
PCFL-180P-F2S
Contact us for chassis in response to
SFX mounting face as we can handle
it depending on the contents.
PCFL-180P-X2S2
Time at natural
air cooling
(Basic
connfiguration)
Time at
natural air cooling
(Exclusive heat sink
attachment)
At the time of forced
air cooling using a
external fan*1
Peak current /
Peak power
(within 5s)
90W
180W
UL
Safty standard
Min. current
W×H×D (mm)
CSA
EN
CE
CCC
85~264V (worldwide range)
+5V
+12V
+24V
-12V
+5VSB
+3.3V
○
○
○
○
○
○
○
○
○
○
○
○
○
○
○
○
10A
10A
7.5A
3.75A
0.3A
1.5A
60W Max.
Within the limits of output power restrictions (Max.90W)
10A
10A
8.5A
4.25A
0.3A
1.5A
70W Max.
Within the limits of output power restrictions (Max.102W)
5A
10A
10A
10A
0.3A
1.5A
Within the limits of output power restrictions (Max.150W)
10A
10A
15A
0.3A
2A
7.5A
Within the limits of output power restrictions (Max.180W)
0A
0A
0A
0A
0A
0A
93×55×160
*1 In forced air cooling, air flow if 0.5m3/min. more ti parts syrfaceus reqyured.
Series Lineup
PCFL-180P-X2S2
PCFL-180P-F1S
PCFL-180P-F2S
Output
connectors
(Optional)
ATX Output, Batttery Backup available
Main
(20pin)
5
Main
(24pin)
1
S-ATA
4
With ATX Output , +24V
Compatible battery pack
PCFL-180P-X2S2 the backup function
BS17A-H24/2.0L
S
F
X
Continuous
Peak
120
30
Time (min.)
80
60
50
45
25
20
15
30
0
61
63.6
94.1 95.6
20
40
60
80
100
Total output of +5V, +3.3V, -12V, +5VSB (W)
0
20
Peak
Two mounting surface types available for
PS/2 (ATX) and SFX power supply.
With medical standard compliant 24V output power
supply connected, medical standard compliant ATX
output power supply is at hand.
Output power cross regulation
180
+3.3V
10A
+5V
10A
EN
CE
CCC
21.6~26.4V
+12V
10A
-12V
0.3A
+5VSB
1A
Within the limits of output power restrictions (Max.150W)
10A
10A
15A
0.3A
1.8A
Min. current
Within the limits of output power restrictions (Max.180W)
0A
0A
0A
0A
0A
W×H×D (mm)
150×86×110
Max. current/
Max.power
(Continuous)
Peak current /
Peak power
(within 5s)
Min. current
W×H×D (mm)
21.6~26.4V
+3.3V
+5V
+12V
-12V
+5VSB
10A
10A
8A
0.3A
1A
Total 70W
Within the limits of output power restrictions (Max.120W)
10A
10A
15A
0.3A
1.8A
Within the limits of output power restrictions (Max.180W)
0A
0A
0A
0A
0A
100×63.5×151
Output
connectors
(Optional)
Main
(20pin)
Main
(24pin)
5
140
With mGPSA-360/750 24V output model and ATX output model with DC
24V input combined, ATX output power supply with low leakage current
compliant with medical standard is at hand.
+24V
ATX Type DC-DC Convertor
100
24V output type
(mGPSA)
60
Non-isolated
Isolated
60
80
100
Load (W)
+3.3V
+5V
+12V
-12V
+5VSB
PCFD-180P-X2S
0
40
S-ATA
As power supply system compliant with medical standard
120
80
1
4
Peak power (within 5s)
PCUI-180P-X2SP1
PCUI-180P-X2SF1
20
5
0
CSA
40
10
Dotted line:PCFL-180P-F1S
Max. current/
Max.power
(Continuous)
Peak current /
Peak power
(within 5s)
DC24V Input, non-isolated ATX/SFX power supply
160
Discharging characteristic of Battery backup
35
120W
180W
Continuous
PCUI-180P series
Installable for 3.5inch bay, Ni-MH battery pack
100
90
85
40
A
T
X
150W
180W
+12VOutput (W)
+12V, +24V Output current (W)
Compact dimension brought by a new circuit with
no electrolytic capacitors for input smoothing
DC input
Output voltage
DC Input
Output voltage
Using a external fan
Natural air cooling
(Exclusive heat sink attachment)
Natural air cooling
(Basic structure)
UL
Safty standard
PCUI-180P-X2SP1
PCUI-180P-X2SF1
Peak power (within 5s)
160
PCUI-180P-X2SP1
PCUI-180P-X2SF1
200
output power cross regulation
200
* This product is suggested model (subject to change in specification)
Model
With+5V, +12V, -12V, +5VSB, +24V (No +3.3V)
Natural air cooling design, Fanless ATX Power Supply
DC24V Input, non-isolated
ATX/SFX power supply
0
20
40
60
80
100
Total output of +5V, +3.3V, -12V, +5VSB (W)
GND
Once just mGPSA has complied to medical standard, your system can be
standardized regardless of medical standard even though secondary output
voltages are variously customized.
62
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