350INV60-120-240-9G [BEL]
DC-AC CONVERTER;型号: | 350INV60-120-240-9G |
厂家: | BEL FUSE INC. |
描述: | DC-AC CONVERTER |
文件: | 总10页 (文件大小:1036K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
The Bel Power Solutions 350INV60-120-240-9G is a high-efficient
DC/AC inverter that converts high-voltage DC power into split phase
AC power 120/240 VAC required to drive AC accessory loads directly
from the High Voltage DC Drive or Battery Bus. Liquid cooled DC/AC
inverter operates at input voltages from 240 to 430 VDC and power
range up to 6000 W. The DC/AC inverter utilizes CAN communication
to the vehicle controller which allows selection of operational modes
and frequency selection.
The DC/AC inverter is built in a sealed aluminum enclosure, ready to
unted to the vehicle chassis and is a commercial-off the-shelf
n for electric vehicle manufacturers and developers.
2 % typical efficiency
nput voltage range: 240 – 430 VDC
ower rating of 1 module 6 kW, possible parallel synchronized
peration up to 6 modules with total power up to 32 or 36 kW
ull galvanic insulation between input and output
AN bus serial interface
•
•
•
•
ver temperature, output overvoltage and overcurrent protection
Protection degree IP65 and IP67
Liquid cooled
Vibration immunity meets military level
Three phase function: outputs of 3 modules can create 3 phase system
3 x 400 VAC
E-MARK E13*10R00-10R05*13865
•
Hybrid and electric vehicles
•
•
Medium through heavy duty, on and off highway vehicles
2
350INV60-120-240-9G
MODEL
DESCRIPTION
350INV60-120-240-9G
Kit that includes mating input connector with assembled 3 m of HV DC cable, output and signal
connector with terminal pins
350INV60-CON-KIT-8G
350INV60-CON-KIT-9G
Kit that includes input, output and signal connectors with terminal pins
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Input Voltage
240
350
430
VDC
Max. Input Current at nominal
Power 6000 W
Max. Input Current at peak
Power 8000 W
Vin = 240 Vmean
28
34
37
ADC
Vin = 240 Vmean
ADC
%
Typical Efficiency
Maximum @ Vin = 350 VDC, Pout = 4 kW, T_coolant = 40°C
92
@ Vin = 350 VDC, Pout = 6 kW, T_coolant = 40°C
@ Vin = 350 VDC, Pout = 0 kW, T_coolant = 40°C
Inverter shutdown
430
110
W
W
Internal Power Loss
Input Line Interruption
Input Capacitance
240
100
VDC
µF
Input-to-Chassis: Basic
Input-to-Output: Reinforced
Input to Chassis (ground)
Input to Output
3000
3000
10
VDC
VDC
MΩ
MΩ
Insulation
Insulation Resistance
10
Input Current Waveform
remaining amplitude part of 50 / 60 Hz component
10
%
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
120
240
180
25
MAX
UNIT
VAC
VAC
Deg
A
L1 to N, L2 to N
L1 to L2
Output Voltage
Phase shift
L1 to L2
Output Current
@ 6kW
Continuous
Output overload, (max. 10 sec.)
Overload for motor load spin-up (max 3 sec)
6
8
Output Power
kVA
8
Static Regulation
In-factory Output Calibration
Frequency
L1 = L2 = 120 VAC at load 0 to 25 A
-12
+ 12
VAC
VAC
Hz
L1 to L2 = 240 VAC at load 25 A, T_coolant = 30°C
237.75
237.85
50 / 60
@ 120 VAC / Nominal load
- Differential Mode 20 MHz of Vo_max
- Differential Mode 20 MHz
Vin = 240 – 430 Vmean, So1 = So2 = 3 kVA, Ipk1 = Ipk2 = 70 A,
T_ambient = 85°C, T_coolant = 70°C
4
7
%
Vp-p
Periodic and Random Deviation
Load Crest Factor
2.5
Vin = 240 – 430 Vmean, So1 = So2 = (0.01 kVA, 1 kVA, 3 kVA),
cos(fi) = (0.5, 1), T_ambient = 25°C, T_coolant = 50°C
0.1 – 1 kVA linear load
Total Harmonic Distortion
4
10
%
1 – 3 kVA linear load
Turn-On Delay
After application of DC input or cycling enable signal
The output voltage of the inverter kept within the limits.
5000
1
ms
Load Power Factor
0.3
tech.support@psbel.com
3
350INV60-120-240-9G
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Vin = 240 - 430 Vmean, T_ambient = 85°C, T_coolant = 70°C,
Io1 = Io2 = step from 25 Arms to 27.5 Arms
Io1 = Io2 = step from 25 Arms to 33 Arms
Output Over-Current
Protection shut-down time
65
12
8
Sec
Io1 = Io2 = step from 25 Arms to >33 Arms
Short Circuit Survival
shut-down time
Output Over-Voltage
Protection
Output Under-Voltage
Protection
Vin = 350 Vmean, T_ambient = 85°C, T_coolant = 70°C,
Io1 = Io2 = from 25 Arms/cos(Fi) = 1 to short cut
60
ms
Vpk
Latch type
200
210
100
UV duration 60 ms
95
70
Vrms
Over-Temperature Protection
Converter shutdown at T_coolant higher than
DC Input: Single on positive pole
°C
A
Input Fuse Protection
50
Turn ON threshold
Turn OFF threshold
250
235
255
240
260
245
Input Low Line Protection
VDC
VDC
Input Overvoltage protection
Recovery: Vin re-cycling or ENABLE
435
450
PARAMETER
DESCRIPTION / CONDITION
CAN BUS SAE J1939 Interface
250 kBit/s
Inverter turned ON signal is pulled-up 100 k Ohm to 5 V internally
Inverter turned OFF pulled down to 0.6V or 100 Ohm to signal GND
Output frequency selected to 60 Hz signal is pulled up 100k Ohm to 5 V internally
Output frequency selected to 50 Hz signal is pulled down to 0.6 V or 100 Ohm or less to signal GND
Operation of multiple inverter modules in redundant parallel mode.
SYNC signals of individual modules have to be connected together and twisted with signal ground
ENABLE
FREQ_SELECT
SYNC
HVIL function
Internal short is provided on HVIL pins.
PARAMETER
DESCRIPTION / CONDITION
Under all conditions for currents below 4.0 A rms read back is not working, i.e. read back value is 0 A
For current higher than 4.0 A this readback is valid:
Output current readback accuracy
In case of crest factor 1 :
+ / - 2.0 Arms
+ / - 3.0 Arms
In case of crest factor higher than 2.5 :
Input voltage readback accuracy
Output voltage readback accuracy
+/ - 2.0 VDC
+ / - 2.0 Vrms
PARAMETER
DESCRIPTION / CONDITION
CRITERION
Basic
Reinforced
Input-to-Protective Earth
Input-to-Output
Insulation
Radiated Emission
CISPR22, EN55022
Class A
Conducted Emission
CISPR22, EN55022
Class A
Electrostatic Discharge
IEC 61000-4-2 (10 V/m)
IEC 61000-4-3, SAE J1113/21
Performance Criterion B
Performance Criterion B
Performance Criterion B
Performance Criterion A
Class A
Radiated Electromagnetic Field
Electrical Fast Transient (EFT) /Burst
RF Conducted Immunity
RF Disturbances Immunity
IEC 61000-4-4, ISO 7637-2; Level 2 (+/-2 kV, 2.5 kHz)
Level 3 (10V, 0.15…80 MHz, AM 80%, 1 KHz)
SAE J1113-41
North America
Asia-Pacific
Europe, Middle East
+1 408 785 5200
+86 755 298 85888
+353 61 225 977
© 2021 Bel Power Solutions & Protection
BCD.00331_AB3
4
350INV60-120-240-9G
PARAMETER
DESCRIPTION / CONDITION
MIN
NOM
MAX
UNIT
Operating: 62 kPa absolute pressure
Non-Operating:18.6 kPa absolute pressure
Liquid cooled:
3600
12200
Altitude
m
Tcoolant with no derating
Tamb @ full load, with no power derating
-40
-40
+70
+85
°C
°C
Operating Temperature
Storage Temperature
Humidity
-40
+95
SAE J1455 JAN 2011
SAE J1455
Shock
Vibration
SAE J1455, MIL-STD-202G
PARAMETER
DESCRIPTION / CONDITION
High voltage connecter with HVIL function
High voltage unshielded connector
Panel mounted
MANUFACTURER
Delphi HV280
Delphi
MPN
Input Connector
13737767
13879038
47725-1310
Output Connector
CAN BUS and Signal Interface
Molex MX150
PARAMETER
DESCRIPTION / CONDITION
MPN
Housing Delphi (1pc)
Female terminal (2pcs)
HVIL housing (1pc),
Female terminal (2pcs)
13737728
13572764
13738743
13543114
DC Input Connector
Sealing (1pc)
13756257
Housing Delphi (1pc)
Power terminal (4pcs),
Signal terminal (2pcs, not used for contact)
Housing Molex (1pcs)
Female terminal (12pcs, 11pcs used for contact)
13879046
13783301
13711549
33472-1206
0330122002
AC Output Connector
CAN BUS and Signal Interface
Note: Not all cavities are used for electrical function in signal and output connector. In order to maintain IP67 also non used
cavities in mating connector must be assembled by dummy wires to get gasket into tightness.
SYNC
FREQ SELECT
CHAIN SUPPLY
CAN H
ENABLE
CAN L
HVIL
V OUT N
V OUT N
V OUT L1
V OUT L2
1
7
6
12
SIGNAL GND
RESERVED
CHAIN OUT
CHAIN IN
V IN (-)
V IN (+)
ADR 0
ADR 1
DC Input Connector
AC Output Connector
Signal Connector
tech.support@psbel.com
5
350INV60-120-240-9G
PIN
1
DESCRIPTION
FUNCTION
ENABLE
ENABLE
2
FREQ_SELECT
SYNC
Frequency select
Multi inverter synchronization
Chain protection supply
CAN BUS H
3
4
CHAIN_SUPPLY
CAN_H
5
6
CAN_L
CAN BUS L
7
SIGNAL_GND
ADR_0
Signal return
8
Addressing pin
Addressing pin
Chain protection input
Chain protection output
Reserved
9
ADR_1
10
11
12
CHAIN_IN
CHAIN_OUT
Reserved
Signal Connector Pin Description
Purpose of running multiple modules in parallel is to get higher power. The maximum number of parallel modules is 6, see wiring
diagram below.
Max. Power 1 [kVA]
Full coolant temp. range
Max. Power 2 [kVA]
Reduced coolant temp range to 50°C
Number of modules
2
3
4
5
6
11.2
16.8
22.4
28.0
33.6
12
18
24
30
36
During parallel operation load current is shared evenly between modules. However because of production tolerance on the output
voltage calibration and passive current sharing between modules (droop sharing) there may be a deviation of load current - up to 6%
difference module to module is possible vs. the average value. The result of this deviation may cause some modules to deliver more
current than others. In the Table above, in the centre column (Max. power 1), is the available power when none of the paralleled
modules override their nominal current of 25 A. The right column specifies condition for n modules - n * 6 kVA. In the case of Max.
Power 2, some of the modules may be operating over their nominal power. Functioning above the maximum power is however
acceptable since the overcurrent protection only activates at an output current of ~27.5 A, however this is only possible when
operating at a lower coolant temperature range, so that the over-temperature protection doesn’t trip off the overloaded module.
Modules connected in a 3 phase configuration, per the diagram below are able to produce a 3 x 400 VAC output. To achieve the 240
VAC, each modules L1 is connected to L2.
The slaves function at 120° and 240° out of phase from the master by setting up the addressing per the table below. Note: Each of
the address pins are digital and have internal pull up impedances, therefore a non-connected pin will result in a logic high.
ADR_0 (PIN8)
ADR_1 (PIN9)
FUNCTION
Master
1
0
1
0
1
1
0
0
Slave 120 Deg
Slave 240 Deg
Reserved
North America
+1 408 785 5200
Asia-Pacific
+86 755 298 85888
Europe, Middle East
+353 61 225 977
© 2021 Bel Power Solutions & Protection
BCD.00331_AB3
6
350INV60-120-240-9G
MULTI-UNIT CAN ADDRESSING
After input power is connected parallel modules (or units connected in a three phase configuration, here after called “paired” units)
automatically allocate their addresses on the CAN line. The design allows up to 6 paired modules, addresses are always chosen from
the range of B4 to B9. Every time the input power is re-cycled there may be different addresses allocated to units in comparison to
the previous state, but they will be always inside of range of B4 to B9. If the user counts active devices, within this range, you know
how many modules are actively connected. In case the CAN line is not required for paired modules, then it does not need to be
connected. However in the case CAN is not used the sync BUS and chain circuit still need to be co connected.
ENABLE CONTROL
Output enable control works either through the hardware enable pin or by sending CAN message “nv_b_cmd_Enable”. In parallel
mode, hardware enable pins are required to be wired together, this ensures the same level is sent to all modules. The requirement
CAN enable message is sent out to all active units. With the exception of the above, both enable controls are equivalent. By re-
cycling the enable control (disable then re-enable) will clear an output latch condition that might have occurred because of a
protection feature e.g.: output over current, over temperature, etc.
PAIRED MODE SYNC
Modules use the “sync” signal to synchronize their outputs. This happens automatically and there is no user intervention required.
After start up one of the paired units automatically establishes itself as the master, all other units in the paired configuration will
default to slave operation. Slaves synchronize their outputs according to the reference waveform from master.
READ BACK OF INPUT / OUTPUT VALUES
In paired mode each module provides its own values. However in paired mode when input and/or output voltages are tied together
there could be a read back inaccuracy of up to typical ± 2V. Regarding output current, each module will provide its own value. To get
the total output current the user must summarize read backs from all active modules.
PAIRED MODE PROTECTION FUNCTIONS
In paired mode, the signal connector wiring is continuously monitored. This monitoring serves to protect modules against losing
synchronization signal during service and is established via a chain circuit starting from the first module and ending with the last. The
user needs to establish the chain circuit in the external wiring harness according to diagrams below. In case the chain line is broken
all units in the chain will shut down and provide active warning bit on CAN Bit 29 – Inv_b_flt_SyncError. This may happen for example
when signal connector of any unit is unplugged during service.
There is no redundancy provided for paired modules. This means in case a functional failure would occur in any of the paired
modules, all modules would shut down. This is a requirement to protect output stages of modules against permanent damage.
PAIRED MODE CHASSIS GROUNDING
During parallel operation it is required that the chassis of all paired modules are galvanic tied together and grounded to PE.
tech.support@psbel.com
7
350INV60-120-240-9G
Wiring setup for parallel operation 350INV60-120-240-9G
Wiring setup for single operation 350INV60-120-240-9G
North America
+1 408 785 5200
Asia-Pacific
+86 755 298 85888
Europe, Middle East
+353 61 225 977
© 2021 Bel Power Solutions & Protection
BCD.00331_AB3
8
350INV60-120-240-9G
Wiring setup for 3-phase operation 350INV60-120-240-9G
PARAMETER
Dimensions (W x H x D)
Weight
374 x 163 x 384 mm
20 kg
Enclosure
IP65 and IP67
Maximum allowed pressure of cooling liquid
Recommended Coolant Medium/Mixture
Recommended Coolant Flow
Inlet/Outlet Coolant Connection
20 PSI (1.4bar)
50/50 Propylene or Ethylene Glycol/Water
0.0208 to 0.0505 l/s (0.33 to 0.8 GPM)
Hose Adapter, Threaded 1-14 UNF, Stainless Steel
tech.support@psbel.com
9
350INV60-120-240-9G
DELPHI
P/N 13737767
DELPHI
P/N 13879038
MOLEX
P/N 47725-2010
GORE VENT
P/N PMF100444
M8x16mm
TORQUE MAX. 21Nm
MAX. LENGTH OF SCREW 16mm
HOSE ADAPTER, THREADED
1-14 UNF
STAINLESS STEEL
TORQUE MAX. 94,5Nm
173 ±1
320 ±1
Mechanical Drawing – Front View
North America
Asia-Pacific
Europe, Middle East
+1 408 785 5200
+86 755 298 85888
+353 61 225 977
© 2021 Bel Power Solutions & Protection
BCD.00331_AB3
10
350INV60-120-240-9G
HOT SURFACE LABEL
HIGH VOLTAGE LABEL
31
PRODUCT LABEL
320 ±1
347
362
362 ±1.5
(384)
Bottom View
Side View
257.1 ±0.5
193.5 ±0.5
164.5 ±0.5
100.9 ±0.5
41.5 ±0.5
279
41.5
Top View
NUCLEAR AND MEDICAL APPLICATIONS - Products are not designed or intended for use as critical components in life support systems,
equipment used in hazardous environments, or nuclear control systems.
TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending on
the date manufactured. Specifications are subject to change without notice.
tech.support@psbel.com
相关型号:
350JE302U0100
Aluminum Electrolytic Capacitor, Polarized, Aluminum (dry/solid), 10V, 75% +Tol, 10% -Tol, 3000uF, Through Hole Mount, RADIAL LEADED
CDE
©2020 ICPDF网 联系我们和版权申明