Power converters made in China
Power converters made in China
Photovoltaic central inverters
for multi-megawatt plants
TI
NA
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ER
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๻ᚯ印
紡Ĺ
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印঵㽱䐧঵
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NERGY SOLAR
CE
NESC
We are certified by the National Energy Solar Center.
We have passed all the tests required by State Grid including LVRT and electricity quality.
We are certified by the Golden Sun emblem from the
CHINA GENERAL CERTIFICATION CENTER
WE DESIGN AND
MANUFACTURE A WIDE
RANGE OF INVERTERS
MORE THAN 3 GW SUPPLIED TO THE
SOLAR PV MARKET WORLDWIDE
Production facility at Nantong
Commercial office at Shanghai
4
Ingeteam is a global company
that is present in 13 countries
and operates all over the
world. Our first commercial
office in China was established
in Shanghai more than 10
years ago. And our Nantong
production facility is operating
since 2011. It features an area
of 4,000 square meters and an
annual production capacity of
1 GW combining photovoltaic
and wind power converters.
In the PV sector, Ingeteam is one
of the world’s largest PV inverter
manufacturers. We develop all
the electronics and software
to obtain a high-quality end
product at a very competitive
price, adaptable to the specific
characteristics of each plant.
5
PowerMax inverters with two different configurations
Master-Slave configuration
275 - 920 kW
Inverters with 2 to 4 power blocks connected
in parallel to the same PV generator and to
the same MV transformer. In periods of low
irradiance, it is able to increase performance
by up to 1.8 points.
Protections
Optional accessories
DC reverse polarity.
AC thermal magnetic breaker
(only for the DCAC inverters).
Short-circuits and overloads at
the output.
Anti-islanding with automatic
disconnection.
Insulation failure DC.
DC load breaker.
12 pairs of fuse-holders for inverters
with 3 and 4 power blocks, and 8
pairs of fuse-holders for inverters
with 2 power blocks.
Lightning induced class 2 DC and AC
surge arrestors.
DC contactor to automatically
disconnect the inverter from the
PV array.
Advantages of the Master-Slave version
Enhanced performance.
In the event of the failure of one of the
blocks, the power is then distributed
amongst the remaining blocks.
Motorization kit for the AC thermal
magnetic breaker.
Inter-inverter communication via RS-485,
Ethernet or Bluetooth.
Insulation failure AC.
Earthing kit.
Kit for operating at an ambient
temperature of up to -30ºC.
DC fuses.
Blown fuse sensor at the DC input.
Monitoring of the group currents at the
DC input (only for the DCAC inverters).
Remote tripping of the AC protection
(only for the DCAC inverters).
Wattmeter on the AC side.
(only for the DCAC inverters).
Voltage ride through kit.
Extendable up to 16 fuse holders
per inverter.
Lightweight spares, for shorter
delivery times.
Permite aterrar el campo fotovoltaico.
Modular transformerless central inverters from 275 to 1,019 kW
The INGECON® SUN PowerMax central inverters are more powerful and efficient than ever
and are certified with the Golden Sun of the CGC (China General Certification Center).
Multi-MPPT configuration
275 - 1,000 kW
Maximum efficiency values
The new INGECON® SUN PowerMax inverters achieve
efficiency levels of up to 98.8%. They feature independent
maximum power point trackers (MPPT). Furthermore,
an advanced MPPT algorithm makes it possible to
harness the maximum energy from the PV array at all
times, even in difficult situations, such as scattered clouds
and partial shading.
Grid support
The INGECON® SUN PowerMax inverter family features a
low voltage ride through capability, it can deliver reactive
power and control the active power delivered to the
grid. They have been designed to comply with the grid
connection requirements in different countries, contributing
to the quality and stability of the electric system.
Software included for free
Our inverters are supplied with the monitoring software at
no extra cost. Monitoring the internal operating variables
6
(alarms, real time production, etc.) and accessing to the
historical production data through a number of different
media (such as RS-485, Ethernet, GSM/GPRS or Bluetooth)
is fast and easy with the applications INGECON® SUN
Manager, INGECON® SUN Monitor and its iPhone
version iSun Monitor.
Multiple equipments for multiple projects
The INGECON® SUN PowerMax central inverters are
available in different versions:
Indoor inverters with an integrated DCAC cabinet.
Indoor inverters only with the DC connection.
Outdoor inverters with an integrated DCAC cabinet.
Symmetrical indoor inverters with the connection
cabinet on the opposite side, to make it possible to install
two inverters facing each other, with a common power
supply point.
Inverters with 2 to 4 independent
power blocks. Each power block has
its own maximum power point tracking
system (MPPT).
Protections
For each power module:
Reverse polarity.
Short-circuits and overloads
at the output.
Anti-islanding system with
automatic disconnection.
DC load breaker with door control.
DC insulation monitor.
3 pairs of DC fuse-holders per power
block (only for the DCAC inverters).
DC and AC surge arresters, type 2.
DC contactor to automatically
disconnect the inverter from the
PV array.
Optional accessories
AC thermal magnetic breaker with door control
(only for the DCAC inverters).
AC thermal magnetic breaker monitoring kit.
Inter-inverter communication via RS-485,
Ethernet or Bluetooth.
Insulation failure AC.
Kit for operating at ambient temperatures
of down to -30ºC.
Monitoring of the group currents at the DC
input (only for the DCAC inverters).
Remote tripping of the AC protection
(only for the DCAC inverters).
DC fuses (only for the DCAC inverters).
Wattmeter on the AC side
(only for the DCAC inverters).
Voltage ride through kit.
Extendable up to 4 pairs of fuse holders
per power block.
7
INGECON® SUN PowerMax Master-Slave
Master-Slave configuration
Indoor / Outdoor
Central inverters with a Master-Slave configuration and integrated DCAC cabinet
DC and AC supplies in the
same cabinet
The input and output lines
are integrated into the same
cabinet, facilitating maintenance
and repair work.
Available in indoor and
outdoor versions
These Master-Slave central inverters
feature an innovative ventilation system
for the internal circulation of fresh air.
Furthermore, the selection of casings
makes these inverters suitable for indoor
(IP20) and outdoor (IP54) installation.
Maximum protection
These three phase inverters are
equipped with a motorized DC load
break switch to decouple the PV
generator from the inverter. Optionally,
the inverters can be supplied with an
AC thermal magnetic breaker with door
control, in addition to fuses, grounding
kit and input current monitoring.
Filter
L1
L2
L3
+2
AC output for
connection to a
MV network
+1
L1
L2
L3
Filter
M
...
-16
-1
-2
AC output for
connection to a
MV network
Optional
...
-16
Inverter
Optional
M
-3
L1
L2
L3
Filter
-1
-2
-3
Inverter
Optional
Size and weight (mm)
2, 9
10
5
92
3,5
10
2, 3
10
9
25
1,0
00
2,140
2,140
1,9
10
3,5
10
2, 9
10
0
1,0
0
2 blocks Indoor
900 kg.
4 blocks Outdoor
2,700 kg.
1,0
00
3 blocks Indoor
1,500 kg.
92
5
4 blocks Indoor
2,100 kg.
2, 5
10
92
5
2,040
3 blocks Outdoor
2,050 kg.
2,040
2 blocks Outdoor
1,500 kg.
2,040
2,040
4 blocks Indoor
2,500 kg.
2,140
3 blocks Indoor
1,900 kg.
2,040
2 blocks Indoor
1,300 kg.
2,040
Size and weight (mm)
8
Integrated protections
The Master-Slave INGECON® SUN
PowerMax DC inverters are supplied
Inverter
+3
Inverter
+3
+2
+1
5
with DC fuse-holders as standard
and, optionally, they can come with
DC fuses and a grounding kit.
In addition, they have a motorized
DC load breaker to decouple the PV
generator from the inverter.
way, investment is optimised by
constructing enclosures housing a
number of inverters.
+16
...
Filter
+16
...
92
Optimised space and investment
This model requires less space as the
AC supply is not grouped together.
This is a versatile solution, which is
particularly advantageous for medium
voltage transformer substations with
two inverters and limited space. In this
PowerMax X DC
PowerMax X DCAC
2, 3
10
Central inverters with a Master-Slave configuration and DC cabinet
3,1
10
92
5
9
PowerMax
Master-Slave
220 Vac
275TL X220
410TL X220
550TL X220
283 - 325 kWp
424 - 488 kWp
566 - 650 kWp
405 - 820 V
405 - 820 V
405 - 820 V
1,000 V
1,000 V
1,000 V
Maximum voltage DC(2)
900 A
1,350 A
1,800 A
Maximum current DC
8
12 (extendable up to 16)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Maximum voltage DC(2)
Maximum current DC
Nº DC inputs with fuse holders
PowerMax
Master-Slave
275 Vac
350TL X275
520TL X275
695TL X275
354 - 410 kWp
531 - 650 kWp
709 - 819 kWp
460 - 820 V
460 - 820 V
460 - 820 V
1,000 V
1,000 V
1,000 V
900 A
1,350 A
1,800 A
8
12 (extendable up to 16)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Nº DC inputs with fuse holders
DC fuse dimensions
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles
DC fuse dimensions
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles
Type of connection
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Type of connection
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Power blocks
MPPT
Current at each input
2
3
4
Power blocks
MPPT
1
1
1
100 to 200 A
100 to 200 A
100 to 200 A
Current at each input
Input protections
DC surge arresters, type 2 (for each power stage)
DC breaker
Frequency AC
Phi Cosine(4)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(5)
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
1
1
100 to 200 A
100 to 200 A
DC surge arresters, type 2 (for each power stage)
Motorized DC load breaker
Other protections
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
275 kW
412 kW
550 kW
Rated power AC(3)
736 A
1,104 A
1,472 A
Maximum current AC
220 V IT System
220 V IT System
220 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=275 kVA
Yes. Smax=412 kVA
Yes. Smax=550 kVA
<3%
<3%
<3%
Rated voltage AC
Frequency AC
Phi Cosine(4)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(5)
Output protections
346 kW
519 kW
693 kW
736 A
1,104 A
1,472 A
275 V IT System
275 V IT System
275 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=346 kVA
Yes. Smax=519 kVA
Yes. Smax=693 kVA
<3%
<3%
<3%
Output protections
Overvoltage protections
AC breaker
1
DC breaker
Output (AC)
Rated voltage AC
4
100 to 200 A
Overvoltage protections
Motorized DC load breaker
Other protections
Maximum current AC
3
Input protections
Overvoltage protections
Rated power AC(3)
2
AC surge arresters, type 2
Overvoltage protections
Optional AC thermal magnetic breaker with door control, remote trip or motorized (only DCAC models)
Anti-islanding protection
AC breaker
Yes, with automatic disconnection (for each power stage)
Other protections
AC surge arresters, type 2
Optional AC thermal magnetic breaker with door control, remote trip or motorized (only DCAC models)
Anti-islanding protection
AC fuses, AC short circuits and overloads (for each power stage)
Yes, with automatic disconnection (for each power stage)
Other protections
Features
AC fuses, AC short circuits and overloads (for each power stage)
Features
Maximum efficiency
98.1%
98.1%
98.1%
Maximum efficiency
98.5%
98.5%
98.5%
Euroefficiency
97.9%
97.9%
97.9%
Euroefficiency
98.2%
98.3%
98.3%
CEC
97.4%
97.4%
97.4%
CEC
97.8%
97.9%
97.8%
Stand-by consumptiony(6)
60 W
90 W
120 W
Stand-by consumptiony(6)
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
General Information
Relative humidity (non-condensing)
Protection class
Max. altitude(7)
Cooling system
Air flow
Acoustic emission
General Information
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
Max. altitude(7)
Cooling system
5,340 m3/h (fans: 1,500 W)
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
Air forced with temperature control (230 V phase + neutral power supply)
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
EMC and security standards
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Efficiency INGECON® SUN 550TL X220
150
250
Power (kW)
350
450
CE
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (4) For Pout >25% of the rated power
(5)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(6)
Over 1,000 m temperature for rated power (45ºC) is reduced at the rate of 4.5ºC
for each 1,000 m.
Vdc = 500 V
100
98
96
94
92
90
88
86
84
82
50
Grid connection standards
550
5,340 m3/h (fans: 1,500 W)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Certification
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
0
Air flow
Acoustic emission
CE
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (4) For Pout >25% of the rated power
(5)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(6)
Over 1,000 m temperature for rated power (45ºC) is reduced at the rate of 4.5ºC
for each 1,000 m.
10
Protection class
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Efficiency (%)
Grid connection standards
Relative humidity (non-condensing)
Air forced with temperature control (230 V phase + neutral power supply)
Certification
EMC and security standards
Ambient temperature
Efficiency INGECON® SUN 695TL X275
Efficiency (%)
Ambient temperature
Vdc = 550 V
100
98
96
94
92
90
88
86
84
82
0
100
200
300
400
500
600
700
Power (kW)
11
PowerMax
Master-Slave
300 Vac
380TL X300
570TL X300
760TL X300
386 - 447 kWp
580 - 671 kWp
773 - 894 kWp
505 - 820 V
505 - 820 V
505 - 820 V
1,000 V
1,000 V
1,000 V
Maximum voltage DC(2)
900 A
1,350 A
1,800 A
Maximum current DC
8
12 (extendable up to 16)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Maximum voltage DC(2)
Maximum current DC
Nº DC inputs with fuse holders
PowerMax
Master-Slave
320 Vac
400TL X320
605TL X320
800TL X320
409 - 475 kWp
617 - 715 kWp
819 - 949 kWp
540 - 820 V
540 - 820 V
540 - 820 V
1,000 V
1,000 V
1,000 V
900 A
1,350 A
1,800 A
8
12 (extendable up to 16)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Nº DC inputs with fuse holders
DC fuse dimensions
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles
DC fuse dimensions
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles
Type of connection
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Type of connection
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Power blocks
MPPT
Current at each input
2
3
4
Power blocks
1
1
1
100 to 200 A
100 to 200 A
100 to 200 A
MPPT
Current at each input
Input protections
DC surge arresters, type 2 (for each power stage)
DC breaker
Frequency AC
Phi Cosine(4)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(5)
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
1
1
100 to 200 A
100 to 200 A
DC surge arresters, type 2 (for each power stage)
Motorized DC load breaker
Other protections
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
378.4 kW
567.6 kW
756.8 kW
736 A
1,104 A
1,472 A
Rated power AC(3)
300 V IT System
300 V IT System
300 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=378.4 kVA
Yes. Smax=567.6 kVA
Yes. Smax=756.8 kVA
<3%
<3%
<3%
Maximum current AC
Rated voltage AC
Frequency AC
Phi Cosine(4)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(5)
Output protections
401 kW
605 kW
736 A
1,104 A
803 kW
1,472 A
320 V IT System
320 V IT System
320 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=401 kVA
Yes. Smax=605 kVA
Yes. Smax=803 kVA
<3%
<3%
<3%
Output protections
Overvoltage protections
AC breaker
1
DC breaker
Output (AC)
Rated voltage AC
4
100 to 200 A
Overvoltage protections
Motorized DC load breaker
Other protections
Maximum current AC
3
Input protections
Overvoltage protections
Rated power AC(3)
2
AC surge arresters, type 2
Overvoltage protections
Optional AC thermal magnetic breaker with door control, remote trip or motorized (only DCAC models)
Anti-islanding protection
AC breaker
Yes, with automatic disconnection (for each power stage)
Other protections
AC surge arresters, type 2
Optional AC thermal magnetic breaker with door control, remote trip or motorized (only DCAC models)
Anti-islanding protection
AC fuses, AC short circuits and overloads (for each power stage)
Yes, with automatic disconnection (for each power stage)
Other protections
Features
AC fuses, AC short circuits and overloads (for each power stage)
Features
Maximum efficiency
98.6%
98.6%
98.6%
Maximum efficiency
98.7%
98.7%
98.7%
Euroefficiency
98.4%
98.4%
98.4%
Euroefficiency
98.5%
98.5%
98.5%
CEC
97.9%
97.9%
97.9%
CEC
97.9%
97.9%
97.9%
Stand-by consumptiony(6)
60 W
90 W
120 W
Stand-by consumptiony(6)
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
General Information
Relative humidity (non-condensing)
Protection class
Max. altitude(7)
Cooling system
Air flow
Acoustic emission
General Information
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
Cooling system
5,340 m3/h (fans: 1,500 W)
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
Air forced with temperature control (230 V phase + neutral power supply)
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
EMC and security standards
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Efficiency INGECON® SUN 760TL X300
200
300
400
Power (kW)
500
600
700
CE
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (4) For Pout >25% of the rated power
(5)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(6)
Over 1,000 m temperature for rated power (45ºC) is reduced at the rate of 4.5ºC
for each 1,000 m.
Vdc = 575 V
100
98
96
94
92
90
88
86
84
82
100
Grid connection standards
800
5,340 m3/h (fans: 1,500 W)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Certification
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
0
Air flow
Acoustic emission
CE
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (4) For Pout >25% of the rated power
(5)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(6)
Over 1,000 m temperature for rated power (45ºC) is reduced at the rate of 4.5ºC
for each 1,000 m.
12
Max. altitude(7)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Efficiency (%)
Grid connection standards
Relative humidity (non-condensing)
Protection class
Air forced with temperature control (230 V phase + neutral power supply)
Certification
EMC and security standards
Ambient temperature
Efficiency INGECON® SUN 800TL X320
Efficiency (%)
Ambient temperature
Vdc = 550 V
100
98
96
94
92
90
88
86
84
82
0
100
200
300
400
500
600
700
800
Power (kW)
13
PowerMax
345 Vac
Master-Slave
440TL X345
660TL X345
880TL X345
448 - 520 kWp
673 - 780 kWp
896 - 1.040 kWp
580 - 820 V
580 - 820 V
580 - 820 V
1,000 V
1,000 V
1,000 V
Maximum voltage DC(2)
900 A
1,350 A
1,600 A
Maximum current DC
8
12 (extendable up to 16)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Maximum voltage DC(2)
Maximum current DC
Nº DC inputs with fuse holders
PowerMax
360 Vac
Master-Slave
460TL X360
690TL X360
920TL X360
466 - 546 kWp
702 - 819 kWp
933 - 1,092 kWp
606 - 820 V
606 - 820 V
606 - 820 V
1,000 V
1,000 V
1,000 V
900 A
1,350 A
1,800 A
8
12 (extendable up to 16)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Nº DC inputs with fuse holders
DC fuse dimensions
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles
DC fuse dimensions
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles
Type of connection
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Type of connection
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Power blocks
MPPT
Current at each input
2
3
4
Power blocks
1
1
1
100 to 200 A
100 to 200 A
100 to 200 A
MPPT
Current at each input
Input protections
DC surge arresters, type 2 (for each power stage)
DC breaker
Frequency AC
Phi Cosine(4)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(5)
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
1
1
100 to 200 A
100 to 200 A
DC surge arresters, type 2 (for each power stage)
Motorized DC load breaker
Other protections
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
440 kW
660 kW
880 kW
Rated power AC(3)
736 A
1,104 A
1,472 A
Maximum current AC
345 V IT System
345 V IT System
345 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=440 kVA
Yes. Smax=660 kVA
Yes. Smax=880 kVA
<3%
<3%
<3%
Rated voltage AC
Frequency AC
Phi Cosine(4)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(5)
Output protections
458 kW
688 kW
917 kW
736 A
1,104 A
1,472 A
360 V IT System
360 V IT System
360 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=458 kVA
Yes. Smax=688 kVA
Yes. Smax=917 kVA
<3%
<3%
<3%
Output protections
Overvoltage protections
AC breaker
1
DC breaker
Output (AC)
Rated voltage AC
4
100 to 200 A
Overvoltage protections
Motorized DC load breaker
Other protections
Maximum current AC
3
Input protections
Overvoltage protections
Rated power AC(3)
2
AC surge arresters, type 2
Overvoltage protections
Optional AC thermal magnetic breaker with door control, remote trip or motorized (only DCAC models)
Anti-islanding protection
AC breaker
Yes, with automatic disconnection (for each power stage)
Other protections
AC surge arresters, type 2
Optional AC thermal magnetic breaker with door control, remote trip or motorized (only DCAC models)
Anti-islanding protection
AC fuses, AC short circuits and overloads (for each power stage)
Yes, with automatic disconnection (for each power stage)
Other protections
Features
AC fuses, AC short circuits and overloads (for each power stage)
Features
Maximum efficiency
98.8%
98.8%
98.8%
Maximum efficiency
98.8%
98.8%
98.8%
Euroefficiency
98.6%
98.6%
98.6%
Euroefficiency
98.6%
98.7%
98.7%
CEC
98%
98%
98%
CEC
98.1%
98.1%
98.1%
Stand-by consumptiony(6)
60 W
90 W
120 W
Stand-by consumptiony(6)
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
General Information
Relative humidity (non-condensing)
Protection class
Max. altitude(7)
Cooling system
Air flow
Acoustic emission
General Information
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
Cooling system
5,340 m3/h (fans: 1,500 W)
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
Air forced with temperature control (230 V phase + neutral power supply)
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
EMC and security standards
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Efficiency INGECON® SUN 880TL X345
200
300
400
500
Power (kW)
600
700
800
CE
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (4) For Pout >25% of the rated power
(5)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(6)
Over 1,000 m temperature for rated power (45ºC) is reduced at the rate of 4.5ºC
for each 1,000 m.
Vdc = 600 V
100
98
96
94
92
90
88
86
84
82
100
Grid connection standards
900
5,340 m3/h (fans: 1,500 W)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Certification
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
0
Air flow
Acoustic emission
CE
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (4) For Pout >25% of the rated power
(5)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(6)
Over 1,000 m temperature for rated power (45ºC) is reduced at the rate of 4.5ºC
for each 1,000 m.
14
Max. altitude(7)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Efficiency (%)
Grid connection standards
Relative humidity (non-condensing)
Protection class
Air forced with temperature control (230 V phase + neutral power supply)
Certification
EMC and security standards
Ambient temperature
Efficiency INGECON® SUN 920TL X360
Efficiency (%)
Ambient temperature
Vdc = 625 V
100
98
96
94
92
90
88
86
84
82
0
100
200
300
400
500
600
700
800
900
1000
Power (kW)
15
INGECON® SUN PowerMax Multi-MPPT
Multi-MPPT transformerless
Indoor / Outdoor
Central multi-mppt inverters with an integrated dcac cabinet
Central multi-Mppt inverters with a DC cabinet
DC and AC supplies in the
same cabinet
The input and output lines are
integrated into the same cabinet,
facilitating maintenance and repair
work, whilst still maintaining the
highest level of safety.
Optimised space and investment
This model requires less space as the
AC supply is not grouped together.
This is a versatile solution, which is
particularly advantageous for medium
voltage transformer substations with
two inverters and limited space.
Available in indoor and
outdoor versions
These multi-string central inverters
can be supplied with either an indoor
(IP20) or outdoor (IP54) casing.
Maximum protection
These three phase inverters are
equipped with a manual DC load break
switch and a DC automatic contactor
for each power block, in order to
decouple the PV generator from the
inverter. Optionally, the inverters
can be supplied with an AC thermal
magnetic breaker with door control,
in addition to fuses and current
monitoring.
In this way, investment is optimised
by constructing enclosures housing a
number of inverters.
Integrated protections
The INGECON® SUN PowerMax DC
multi-string inverters are supplied with
manual DC breaker and an automatic
DC contactor for each power block,
in order to decouple the PV generator
from the inverter.
PowerMax M DC
PowerMax M DCAC
Filter
PV input
Module 1
Inverter
L1
L2
L3
L1
Filter
PV input
Module 1
L2
L3
AC output for
connection to a
private LV network
Inverter
AC output for
connection to a
MV network
AC output for
connection to a
MV network
Optional
L1
Filter
Filter
PV input
Module 4
PV input
Module 4
L2
L3
AC output for
connection to a
private LV network
Inverter
Inverter
Optional
Size and weight (mm)
2, 3
10
92
16
5
2, 9
10
5
92
3,5
10
2, 3
10
9
25
1,0
00
2,140
2,140
1,9
10
3,5
10
2, 9
10
0
1,0
0
2 blocks Indoor
900 kg.
4 blocks Outdoor
2,700 kg.
00
1,0
3 blocks Indoor
1,500 kg.
92
5
4 blocks Indoor
2,100 kg.
2, 5
10
92
5
2,040
3 blocks Outdoor
2,050 kg.
2,040
2 blocks Outdoor
1,500 kg.
2,040
2,040
4 blocks Indoor
2,500 kg.
2,140
3 blocks Indoor
1,900 kg.
2,040
2 blocks Indoor
1,300 kg.
2,040
Size and weight (mm)
3,1
10
92
5
17
PowerMax
Multi-MPPT
220 Vac
275TL M220
410TL M220
550TL M220
283 - 325 kWp
424 - 488 kWp
566 - 650 kWp
405 - 820 V
405 - 820 V
405 - 820 V
1,000 V
1,000 V
1,000 V
Maximum voltage DC(2)
900 A
1,350 A
1,800 A
Maximum current DC
6 (extendable up to 8)
9 (extendable up to 12)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Maximum voltage DC(2)
Maximum current DC
Nº DC inputs with fuse holders
DC fuse dimensions(3)
Type of connection
PowerMax
Multi-MPPT
350TL M275
520TL M275
695TL M275
354 - 410 kWp
531 - 650 kWp
709 - 819 kWp
405 - 820 V
405 - 820 V
405 - 820 V
1,000 V
1,000 V
1,000 V
900 A
1,350 A
1,800 A
6 (extendable up to 8)
9 (extendable up to 12)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles (only DCAC models)
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Nº DC inputs with fuse holders
DC fuse dimensions(3)
Type of connection
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles (only DCAC models)
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Power blocks
2
3
4
Power blocks
2
3
4
MPPT
2
3
4
MPPT
2
3
4
(4)
(4)
Input protections
Input protections
Overvoltage protections
DC surge arresters, type 2 (for each power stage)
DC breaker
Overvoltage protections
Manual DC breaker with door control (for each power block)
DC contactor
Rated voltage AC
Frequency AC
Phi Cosine(6)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(7)
DC contactor to automatically disconnect the inverter from the PV field
Other protections
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
275 kW
412 kW
550 kW
Rated power AC(5)
736 A
1,104 A
1,472 A
Maximum current AC
220 V IT System
220 V IT System
220 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=275 kVA
Yes. Smax=412 kVA
Yes. Smax=550 kVA
<3%
<3%
<3%
Rated voltage AC
Frequency AC
Phi Cosine(6)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(7)
Output protections
346 kW
519 kW
693 kW
736 A
1,104 A
1,472 A
275 V IT System
275 V IT System
275 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=346 kVA
Yes. Smax=519 kVA
Yes. Smax=693 kVA
<3%
<3%
<3%
Output protections
Overvoltage protections
AC breaker
Manual DC breaker with door control (for each power block)
DC contactor
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
Maximum current AC
DC surge arresters, type 2 (for each power stage)
DC breaker
DC contactor to automatically disconnect the inverter from the PV field
Other protections
Rated power AC(5)
275 Vac
AC surge arresters, type 2
Overvoltage protections
Optional AC thermal magnetic breaker with door control, motorized or remote trip (only DCAC models)
Anti-islanding protection
AC breaker
Yes, with automatic disconnection (for each power stage)
Other protections
AC surge arresters, type 2
Optional AC thermal magnetic breaker with door control, motorized or remote trip (only DCAC models)
Anti-islanding protection
AC fuses, AC short circuits and overloads (for each power stage)
Yes, with automatic disconnection (for each power stage)
Other protections
Features
AC fuses, AC short circuits and overloads (for each power stage)
Features
Maximum efficiency
98.1%
98.1%
98.1%
Maximum efficiency
98.5%
98.5%
98.5%
Euroefficiency
97.7%
97.7%
97.7%
Euroefficiency
98.2%
98.2%
98.2%
CEC
97.3%
97.3%
97.3%
CEC
97.7%
97.7%
97.7%
Stand-by consumptiony(8)
60 W
90 W
120 W
Stand-by consumptiony(8)
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
0 - 95%
0 - 95%
0 - 95%
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
3,000 m
General Information
Relative humidity (non-condensing)
Protection class
Max. altitude(9)
Cooling system
Air flow
Acoustic emission
General Information
3,000 m
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
Max. altitude(9)
Cooling system
5,340 m3/h (fans: 1,500 W)
3,000 m
Air forced with temperature control (230 V phase + neutral power supply)
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
EMC and security standards
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Efficiency INGECON® SUN 550TL M220
150
250
Power (kW)
350
450
CE
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
For other configurations, consult with Ingeteam (4) The MPPT connected to the
same transformer through TL inverters must have the same voltage configuration
(5)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (6) For Pout >25% of the rated power
(7)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(8)
Consumption from PV field (9) Over 1,000 m temperature for rated power (45ºC) is
reduced at the rate of 4.5ºC for each 1,000 m.
Vdc = 500 V
100
98
96
94
92
90
88
86
84
82
50
Grid connection standards
550
5,340 m3/h (fans: 1,500 W)
< 55 dB (A) at 4 m. and < 67 dB (A) at 1 m with fans working at maximum power
Certification
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
0
Air flow
Acoustic emission
CE
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
For other configurations, consult with Ingeteam (4) The MPPT connected to the
same transformer through TL inverters must have the same voltage configuration
(5)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (6) For Pout >25% of the rated power
(7)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(8)
Consumption from PV field (9) Over 1,000 m temperature for rated power (45ºC) is
reduced at the rate of 4.5ºC for each 1,000 m.
18
Protection class
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Efficiency (%)
Grid connection standards
Relative humidity (non-condensing)
Air forced with temperature control (230 V phase + neutral power supply)
Certification
EMC and security standards
Ambient temperature
Efficiency INGECON® SUN 695TL M275
Efficiency (%)
Ambient temperature
Vdc = 550 V
100
98
96
94
92
90
88
86
84
82
0
100
200
300
400
500
600
700
Power (kW)
19
PowerMax
Multi-MPPT
300 Vac
380TL M300
570TL M300
760TL M300
386 - 447 kWp
580 - 671 kWp
773 - 894 kWp
437 - 820 V
437 - 820 V
437 - 820 V
1,000 V
1,000 V
1,000 V
Maximum voltage DC(2)
900 A
1,350 A
1,800 A
Maximum current DC
6 (extendable up to 8)
9 (extendable up to 12)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Maximum voltage DC(2)
Maximum current DC
Nº DC inputs with fuse holders
DC fuse dimensions(3)
Type of connection
PowerMax
Multi-MPPT
400TL M320
605TL M320
800TL M320
409 - 475 kWp
617 - 715 kWp
819 - 949 kWp
468 - 820 V
468 - 820 V
468 - 820 V
1,000 V
1,000 V
1,000 V
900 A
1,350 A
1,800 A
6 (extendable up to 8)
9 (extendable up to 12)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles (only DCAC models)
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Nº DC inputs with fuse holders
DC fuse dimensions(3)
Type of connection
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles (only DCAC models)
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Power blocks
2
3
4
Power blocks
2
3
4
MPPT
2
3
4
MPPT
2
3
4
(4)
(4)
Input protections
Input protections
Overvoltage protections
DC surge arresters, type 2 (for each power stage)
DC breaker
Overvoltage protections
Manual DC breaker with door control (for each power block)
DC contactor
Rated voltage AC
Frequency AC
Phi Cosine(6)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(7)
DC contactor to automatically disconnect the inverter from the PV field
Other protections
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
378.4 kW
567.6 kW
756.8 kW
Rated power AC(5)
736 A
1,104 A
1,472 A
300 V IT System
300 V IT System
300 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=378.4 kVA
Yes. Smax=567.6 kVA
Yes. Smax=756.8 kVA
<3%
<3%
<3%
Maximum current AC
Rated voltage AC
Frequency AC
Phi Cosine(6)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(7)
Output protections
401 kW
605 kW
736 A
1,104 A
803 kW
1,472 A
320 V IT System
320 V IT System
320 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=401 kVA
Yes. Smax=605 kVA
Yes. Smax=803 kVA
<3%
<3%
<3%
Output protections
Overvoltage protections
AC breaker
Manual DC breaker with door control (for each power block)
DC contactor
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
Maximum current AC
DC surge arresters, type 2 (for each power stage)
DC breaker
DC contactor to automatically disconnect the inverter from the PV field
Other protections
Rated power AC(5)
320 Vac
AC surge arresters, type 2
Overvoltage protections
Optional AC thermal magnetic breaker with door control, motorized or remote trip (only DCAC models)
Anti-islanding protection
AC breaker
Yes, with automatic disconnection (for each power stage)
Other protections
AC surge arresters, type 2
Optional AC thermal magnetic breaker with door control, motorized or remote trip (only DCAC models)
Anti-islanding protection
AC fuses, AC short circuits and overloads (for each power stage)
Yes, with automatic disconnection (for each power stage)
Other protections
Features
AC fuses, AC short circuits and overloads (for each power stage)
Features
Maximum efficiency
98.6%
98.6%
98.6%
Maximum efficiency
98.7%
98.7%
98.7%
Euroefficiency
98.3%
98.3%
98.3%
Euroefficiency
98.4%
98.4%
98.4%
CEC
97.9%
97.9%
97.9%
CEC
97.9%
97.9%
97.9%
Stand-by consumptiony(8)
60 W
90 W
120 W
Stand-by consumptiony(8)
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
0 - 95%
0 - 95%
0 - 95%
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
3,000 m
General Information
Relative humidity (non-condensing)
Protection class
Max. altitude(9)
Cooling system
Air flow
Acoustic emission
General Information
3,000 m
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
Cooling system
5,340 m3/h (fans: 1,500 W)
3,000 m
Air forced with temperature control (230 V phase + neutral power supply)
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
EMC and security standards
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Efficiency INGECON® SUN 760TL M300
Vdc = 550 V
200
300
400
Power (kW)
500
600
700
CE
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
For other configurations, consult with Ingeteam (4) The MPPT connected to the
same transformer through TL inverters must have the same voltage configuration
(5)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (6) For Pout >25% of the rated power
(7)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(8)
Consumption from PV field (9) Over 1,000 m temperature for rated power (45ºC) is
reduced at the rate of 4.5ºC for each 1,000 m.
100
98
96
94
92
90
88
86
84
82
100
Grid connection standards
800
5,340 m3/h (fans: 1,500 W)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Certification
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
0
Air flow
Acoustic emission
CE
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
For other configurations, consult with Ingeteam (4) The MPPT connected to the
same transformer through TL inverters must have the same voltage configuration
(5)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (6) For Pout >25% of the rated power
(7)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(8)
Consumption from PV field (9) Over 1,000 m temperature for rated power (45ºC) is
reduced at the rate of 4.5ºC for each 1,000 m.
20
Max. altitude(9)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Efficiency (%)
Grid connection standards
Protection class
Air forced with temperature control (230 V phase + neutral power supply)
Certification
EMC and security standards
Ambient temperature
Relative humidity (non-condensing)
Efficiency INGECON® SUN 800TL M320
Efficiency (%)
Ambient temperature
Vdc = 550 V
100
98
96
94
92
90
88
86
84
82
0
100
200
300
400
500
600
700
800
Power (kW)
21
PowerMax
345 Vac
Multi-MPPT
440TL M345
660TL M345
880TL M345
448 - 520 kWp
672 - 780 kWp
896 - 1.040 kWp
502 - 820 V
502 - 820 V
502 - 820 V
1,000 V
1,000 V
1,000 V
Maximum voltage DC(2)
900 A
1,350 A
1,800 A
Maximum current DC
6 (extendable up to 8)
9 (extendable up to 12)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Maximum voltage DC(2)
Maximum current DC
Nº DC inputs with fuse holders
DC fuse dimensions(3)
Type of connection
PowerMax
460TL M360
690TL M360
920TL M360
466 - 546 kWp
700 - 819 kWp
933 - 1,092 kWp
524 - 820 V
524 - 820 V
524 - 820 V
1,000 V
1,000 V
1,000 V
900 A
1,350 A
1,800 A
6 (extendable up to 8)
9 (extendable up to 12)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles (only DCAC models)
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Nº DC inputs with fuse holders
DC fuse dimensions(3)
Type of connection
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles (only DCAC models)
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Power blocks
2
3
4
Power blocks
2
3
4
MPPT
2
3
4
MPPT
2
3
4
(4)
(4)
Input protections
Input protections
Overvoltage protections
DC surge arresters, type 2 (for each power stage)
DC breaker
Overvoltage protections
Manual DC breaker with door control (for each power block)
DC contactor
Rated voltage AC
Frequency AC
Phi Cosine(6)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(7)
DC contactor to automatically disconnect the inverter from the PV field
Other protections
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
440 kW
660 kW
880 kW
Rated power AC(5)
736 A
1,104 A
1,472 A
Maximum current AC
345 V IT System
345 V IT System
345 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=440 kVA
Yes. Smax=660 kVA
Yes. Smax=880 kVA
<3%
<3%
<3%
Rated voltage AC
Frequency AC
Phi Cosine(6)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(7)
Output protections
458 kW
688 kW
917 kW
736 A
1,104 A
1,472 A
360 V IT System
360 V IT System
360 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=458 kVA
Yes. Smax=688 kVA
Yes. Smax=917 kVA
<3%
<3%
<3%
Output protections
Overvoltage protections
AC breaker
Manual DC breaker with door control (for each power block)
DC contactor
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Output (AC)
Maximum current AC
DC surge arresters, type 2 (for each power stage)
DC breaker
DC contactor to automatically disconnect the inverter from the PV field
Other protections
Rated power AC(5)
360 Vac
Multi-MPPT
AC surge arresters, type 2
Overvoltage protections
Optional AC thermal magnetic breaker with door control, motorized or remote trip (only DCAC models)
Anti-islanding protection
AC breaker
Yes, with automatic disconnection (for each power stage)
Other protections
AC surge arresters, type 2
Optional AC thermal magnetic breaker with door control, motorized or remote trip (only DCAC models)
Anti-islanding protection
AC fuses, AC short circuits and overloads (for each power stage)
Yes, with automatic disconnection (for each power stage)
Other protections
Features
AC fuses, AC short circuits and overloads (for each power stage)
Features
Maximum efficiency
98.8%
98.8%
98.8%
Maximum efficiency
98.8%
98.8%
98.8%
Euroefficiency
98.5%
98.5%
98.5%
Euroefficiency
98.6%
98.6%
98.6%
CEC
98%
98%
98%
CEC
98.1%
98.1%
98.1%
Stand-by consumptiony(8)
60 W
90 W
120 W
Stand-by consumptiony(8)
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
0 - 95%
0 - 95%
0 - 95%
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
3,000 m
General Information
Relative humidity (non-condensing)
Protection class
Max. altitude(9)
Cooling system
Air flow
Acoustic emission
General Information
3,000 m
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
5,340 m3/h (fans: 1,500 W)
3,000 m
Air forced with temperature control (230 V phase + neutral power supply)
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
EMC and security standards
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Efficiency INGECON® SUN 880TL M345
Vdc = 600 V
200
300
400
500
Power (kW)
600
700
800
CE
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
For other configurations, consult with Ingeteam (4) The MPPT connected to the
same transformer through TL inverters must have the same voltage configuration
(5)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (6) For Pout >25% of the rated power
(7)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(8)
Consumption from PV field (9) Over 1,000 m temperature for rated power (45ºC) is
reduced at the rate of 4.5ºC for each 1,000 m.
100
98
96
94
92
90
88
86
84
82
100
Grid connection standards
900
5,340 m3/h (fans: 1,500 W)
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Certification
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
0
Air flow
Acoustic emission
CE
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
For other configurations, consult with Ingeteam (4) The MPPT connected to the
same transformer through TL inverters must have the same voltage configuration
(5)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (6) For Pout >25% of the rated power
(7)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(8)
Consumption from PV field (9) Over 1,000 m temperature for rated power (45ºC) is
reduced at the rate of 4.5ºC for each 1,000 m.
22
Max. altitude(9)
Cooling system
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Efficiency (%)
Grid connection standards
Protection class
Air forced with temperature control (230 V phase + neutral power supply)
Certification
EMC and security standards
Ambient temperature
Relative humidity (non-condensing)
Efficiency INGECON® SUN 920TL M360
Efficiency (%)
Ambient temperature
Vdc = 625 V
100
98
96
94
92
90
88
86
84
82
0
100
200
300
400
500
600
700
800
900
1000
Power (kW)
23
PowerMax
400 Vac
Multi-MPPT
500TL M400
750TL M400
1000TL M400
518 - 607 kWp
777 - 910 kWp
1,036 - 1,213 kWp
578 - 820 V
578 - 820 V
578 - 820 V
1,000 V
1,000 V
1,000 V
900 A
1,350 A
1,800 A
6 (extendable up to 8)
9 (extendable up to 12)
12 (extendable up to 16)
Input (DC)
Recommended PV array power range(1)
Voltage Range MPP
Maximum voltage DC(2)
Maximum current DC
Nº DC inputs with fuse holders
DC fuse dimensions(3)
Type of connection
PowerMax Multi-MPPT
125 A / 1,000 V to 250 A / 1,000 V fuses, maximum current from 100 to 200 A for positive and negative poles (only DCAC models)
Connection to fuse-holder copper bars. Cable entry from the ground through D40 cable glands (max. cable diameter: 40 mm)
Power blocks
2
3
4
MPPT(4)
2
3
4
DC contactor
Other protections
Phi Cosine(6)
Phi Cosine adjustable
THD (Total Harmonic Distortion)(7)
Insulation failure DC
Insulation failure AC
DC fuse holder
DC fuses
510 kW
764 kW
1,019 kW
736 A
1,104 A
1,472 A
400 V IT System
400 V IT System
400 V IT System
50 / 60 Hz
50 / 60 Hz
50 / 60 Hz
1
1
1
Yes. Smax=510 kVA
Yes. Smax=764 kVA
Yes. Smax=1,019 kVA
<3%
<3%
<3%
DC automatic contactor
DC load breaker
Motorized DC load breaker
AC thermal magnetic breaker
with remote tripping(1)
Integrated accessories
Potential free contact to indicate an
insulation fault
Heating resistor
AC surge arresters, type 2
Grounding kit
Optional AC thermal magnetic breaker with door control, motorized or remote trip (only DCAC models)
Anti-islanding protection
Sync kit
Yes, with automatic disconnection (for each power stage)
Other protections
Night power supply
AC fuses, AC short circuits and overloads (for each power stage)
Input current monitoring per fuse
Features
Detection of blown DC fuse
Maximum efficiency
98.8%
98.8%
98.8%
AC Wattmeter
Euroefficiency
98.6%
98.6%
98.6%
CEC
98.1%
98.1%
98.1%
Firmware updatable
via communication
Stand-by consumptiony(8)
60 W
90 W
120 W
Consumption at night
60 W
90 W
120 W
-20ºC to +65°C
-20ºC to +65°C
-20ºC to +65°C
0 - 95%
0 - 95%
0 - 95%
IP20 / IP54
IP20 / IP54
IP20 / IP54
3,000 m
3,000 m
3,000 m
Communication
Communication RS-485
General Information
Relative humidity (non-condensing)
Protection class
Max. altitude(9)
Cooling system
Air flow
Acoustic emission
Communication ethernet
2,670 m3/h (fans: 1,000 W)
4,640 m3/h (fans: 1,300 W)
Plant power control
Bluetooth
5,340 m3/h (fans: 1,500 W)
CE
EN 50178, EN 62109-1, EN 62109-2, EN 61000-6-2, EN 61000-6-4, EN 61000-3-11, EN 61000-3-12, FCC Part 15
BDEW MT, RD 661/2007, P.O.12.3, CEI 0-16, CEI 11-20, CEI 11-20 V1, Allegato A70 TERNA, IEEE 1547, Arrêté 23-04-08
Notes: (1) Depending on the type of installation and geographical location. Data for
STC conditions (2) Consider the voltage increase of the ‘VOC’ at low temperatures
(3)
For other configurations, consult with Ingeteam (4) The MPPT connected to the
same transformer through TL inverters must have the same voltage configuration
(5)
AC Power for 45ºC ambient temperature. For each ºC of increase, the output
power will be reduced at the rate of 1.8% (6) For Pout >25% of the rated power
(7)
For Pout >25% of the rated power and voltage in accordance with IEC 61000-3-4
(8)
Consumption from PV field (9) Over 1,000 m temperature for rated power (45ºC) is
reduced at the rate of 4.5ºC for each 1,000 m.
Efficiency INGECON® SUN 1000TL M400
(2)
Wireless ISM868
< 55 dB (A) at 4 m and < 67 dB (A) at 1 m with fans working at maximum power
Efficiency (%)
Grid connection standards
Communication GPRS
Air forced with temperature control (230 V phase + neutral power supply)
Certification
EMC and security standards
X DCAC Outdoor
Anti-islanding with automatic shutdown
Up to 16 pairs of DC fuses, DC insulation monitor with alarm, emergency pushbutton
Overvoltage protections
Ambient temperature
X DC Indoor
Reverse Polarity DC
DC contactor to automatically disconnect the inverter from the PV field
Output protections
AC breaker
X DCAC Indoor
Protections
Manual DC breaker with door control (for each power block)
Output (AC)
Frequency AC
M DCAC Outdoor
Output short circuits and overloads
DC surge arresters, type 2 (for each power stage)
DC breaker
Rated voltage AC
M DC Indoor
Output overvoltage AC
(type 2 surge suppressors)
Overvoltage protections
Maximum current AC
M DCAC Indoor
PowerMax Master-Slave
Output overvoltage DC
(type 2 surge suppressors)
Input protections
Rated power AC(5)
INTEGRATED AND OPTIONAL ACCESSORIES
Software
INGECON ® SUN Manager for plant
monitoring
INGECON ® SUN Monitor for
data viewing
Integrated
Notes:
Vdc = 650 V
(1)
Optional
It can also be resettable
Not available
(2)
Equipment prepared, an external control is required.
100
98
96
94
92
90
88
86
84
82
0
100
200
300
400
500
600
700
800
900
1000
Power (kW)
24
25
OVER 3 GW
INSTALLED
2
equipped with INGECON® SUN INVERTERS
Ingeteam boasts a long, proven track record
in the industrial and energy sectors, which
stretches back to 1972, clearly demonstrating
the company’s ongoing policy of technological
development. In the nineties, Ingeteam
became more involved in the development of
electrical and control systems specific to the
renewable energies sector; this was initially
directed at the wind power and hydroelectric
sectors and then, from 2001 onwards, our
company broadened its scope to encompass
the PV solar energy sector as well.
Since then we have provided our customers
with more than 3 GW of power with Ingecon®
Sun photovoltaic inverters. This confirms
Ingeteam as one of the world leaders in
the PV sector.
At Ingeteam, we have extensive experience in
the design and supply of on-grid inverters for
power ratings ranging from 2.5 to 1,000 kW,
for large-scale PV plants. We also specialize
in the design and manufacture of high-power
off-grid and micro-grid inverters for standalone installations, having supplied this type
of inverters principally to the regions of Pacific
Asia and Africa.
One of our key benchmark projects is the PV
plant at San Bellino (Italy); this plant is one of
the largest of its kind in the world, having an
installed rated power of 70 MWp. The 60 MWp
Nobesol solar plant situated in Olmedilla de
Alarcón (Spain) is another important project
in which Ingeteam has participated, supplying
more than 450 Ingecon® Sun 100 inverters.
Ingeteam has also supplied on-grid PV
inverters to some of the most relevant
commercial installations, like the world’s
largest PV greenhouse, a 20 MWp installation
in Sardinia (Italy).
1
26
3
4
5
1. ISOLUX CORSÁN
ACCIONA SOLAR
4. CANTIERI ITALIANI
5. NOBESOL
PV plant at San Bellino (Italia)
70 MWp (60 INGECON® SUN PowerMax Indoor)
2. PV installation on facade (Spain)
60 kW (4 INGECON® SUN 10, 1 INGECON® SUN 20)
Concrete housing at Sardegna (Italy)
PV array at Olmedilla de Alarcón (Spain)
60 MWp (453 INGECON® SUN 100)
3. PV array at Amareleja (Portugal)
46 MWp (70 INGECON® SUN 500TL)
2 INGECON® SUN 630 M360)
9 MW (4 INGECON® SUN 500 M275,
27
REFERENCES
6
28
9
10
7
11
8
12
6. M+H POWER
7. General Electric and Moser Baer Clean Energy
8. RISING SUN SOLAR
9. SINERGIA SISTEMI
10. GMN
11. GRUPOTEC SOLAR
12. ISOLUX CORSÁN
Stand alone PV array at
Innawonga Bellary (Australia)
20 kWp (INGECON® HYBRID)
Installation in Sardegna (Italy) 20 MWp (14 INGECON® SUN PowerStation
with 23 INGECON® SUN 630 M360 Indoor, 4 INGECON® SUN 500 M275
Indoor, 1 INGECON® SUN 315 M275 Indoor)
PV array at Hawaii (USA)
250 kW (2 INGECON® SUN 100 U,
2 INGECON® SUN 25 U)
PV on-roof installation at the Lamborghini factory
in Sant’Agata Bolognese (Italy)
Stand alone PV away at
Nembrala (Indonesia)
21 kWp (INGECON® HYBRID)
PV array on an industrial roof
at Molina de Segura (Spain)
990 kWp (9 INGECON® SUN 100)
Installation in the county
of Cornwall (England)
15 MWp (24 INGECON® SUN
500 M275 Indoor)
1.2 MWp (20 INGECON® SUN 6TL, 2 INGECON® SUN
375 M220 Indoor, 1 INGECON® SUN 100)
29
REFERENCES
13
30
16
17
14
18
15
19
13. MPX
14. EMCO LIMITED
15. SOLARTIA
16. GES s.p.a
17. EOSOL
18. ASSYCE
19. CEGELEC
PV array at Tauá (Brasil)
1 MWp (9 INGECON® SUN 100TL)
PV array at Fatepur (Gujarat, India)
5 MW (7 INGECON® SUN 600 M345 Indoor)
PV array at Viana (Spain)
8.7 MWp (223 INGECON® SUN 5, 106
INGECON® SUN 25, 40 INGECON® SUN 100)
PV plant at Villasor (CA) (Italy)
20 MW (23 INGECON® SUN 630 M360
Indoor, 4 INGECON® SUN 500 M275 Indoor)
PV plant at Villeneuve de Marsan (France)
8 MWp (14 INGECON® SUN 500 M275 Indoor)
PV array at Mae Chan (Thailand)
8 MW (16 INGECON® SUN 500 M275 Indoor)
PV array at Midi-Pyrénées (France)
8 MWp (13 INGECON® SUN 500 M275 Indoor)
31
Ingeteam Shanghai, Co. Ltd.
Shanghai Trade Square, 1105
188 Si Ping Road
200086 SHANGHAI - P.R. China
Tel.. +86 21 65 07 76 36 / Fax: +86 21 65 07 76 38
e-mail: shanghai@ingeteam.com
Ingeteam Power Technology, S.A.
Avda. Ciudad de la Innovación, 13
31621 SARRIGUREN (Navarra) - Spain
Tel.: +34 948 288 000 / Fax: +34 948 288 001
e-mail: solar.energy@ingeteam.com
Ingeteam S.r.l.
Via Emilia Ponente, 232
48014 CASTEL BOLOGNESE (RA) - Italy
Tel.: +39 0546 651 490 / Fax: +39 054 665 5391
e-mail: italia.energy@ingeteam.com
Ingeteam GmbH
Herzog-Heinrich-Str. 10
80336 MUNICH - Germany
Tel.: +49 89 99 65 38 0 / Fax: +49 89 99 65 38 99
e-mail: solar.de@ingeteam.com
Ingeteam SAS
La Naurouze C - 140 rue Carmin
31670 Labège - France
Tel: +33 (0)5 61 25 00 00 / Fax: +33 (0)5 61 25 00 11
e-mail: france@ingeteam.com
Ingeteam INC.
5201 Great American Parkway, Suite 320
SANTA CLARA, CA 95054 - USA
Tel.: +1 (415) 450 1869 / +1 (408) 524 2929 / Fax: +1 (408) 824 1327
e-mail: solar.us@ingeteam.com
Ingeteam INC.
3550 W. Canal St.
MILWAUKEE, WI 53208 - USA
Tel.: +1 (414) 934 4100 / +1 (855) 821 7190 / Fax: +1 (414) 342 0736
e-mail: solar.us@ingeteam.com
Ingeteam, a.s.
Technologická 371/1
70800 OSTRAVA - PUSTKOVEC
Czech Republic
Tel.: +420 59 732 6800 / Fax: +420 59 732 6899
e-mail: czech@ingeteam.com
Ingeteam, S.A. de C.V.
Ave. Revolución, nº 643, Local 9
Colonia Jardín Español - MONTERREY
64820 - NUEVO LEÓN - México
Tel.: +52 81 8311 4858 / Fax: +52 81 8311 4859
e-mail: northamerica@ingeteam.com
Ingeteam Ltda.
Rua Luiz Carlos Brunello, 286
Chácara Sao Bento
13278-074 VALINHOS SP - Brazil
Tel.: +55 19 3037 3773 / Fax: +55 19 3037 3774
e-mail: brazil@ingeteam.com
Ingeteam Pty Ltd.
Unit 2 Alphen Square South
16th Road, Randjiespark, Midrand 1682 - South Africa
Tel.: +2711 314 3190 / Fax: +2711 314 2420
e-mail: kobie.dupper@ingeteam.com
Ingeteam SpA
Bandera, 883 Piso 211
8340743 Santiago de Chile - Chile
Tel.: +56 2 738 01 44
e-mail: chile@ingeteam.com
Ingeteam Power Technology India Pvt. Ltd.
2nd Floor, 431
Udyog Vihar, Phase III
122016 Gurgaon (Haryana) - India
Tel.: +91 124 420 6492 / Fax: +91 124 420 6493
e-mail: india@ingeteam.com
Ingeteam Power Technology, S.A.
www.ingeteam.com
PC04ISA01 _ B
Ingeteam Sp. z o.o.
Ul. Koszykowa 60/62 m 39
00-673 Warszawa - Poland
Tel.: +48 22 821 9930 / Fax: +48 22 821 9931
e-mail: polska@ingeteam.com
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