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Other names for
3BHE039203R0101:
IGCT module
3BHE039203R0101
3BHE039203R0101
semiconductor module
High-voltage
frequency converter module
3BHE039203R0101
I.
Core Basic Functions: High-Power,
High-Voltage Controllable Power Switch
1.
Forward Conduction Function: Upon receiving the turn-on pulse at the fiber optic
gate, the device quickly turns on, carrying a continuous on-state current of
3500A. The on-state voltage drop is extremely low (≤3.2V@rated current), and the
heat loss under high-power conditions is far lower than that of traditional
GTOs, making it suitable for long-term full-load operation. The press-fit
double-sided water-cooled package supports ultra-high heat flow discharge and is
suitable for continuous heavy loads. This device has a rated blocking voltage of
4500V and an average on-state current of 3500A. It is the core power switch for
medium- and high-voltage high-power converters, combining the advantages of
high-current, low-conduction loss of GTO thyristors with the fast hard turn-off
of IGBTs, enabling the control of high-voltage on/off by weak-current fiber
optic signals.
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2.
Controllable Conduction (Gate Turn-On): Compatible with ABB dedicated gate
driver board (5SXE/GVC736) (Series) Outputs a positive gate pulse, instantly
turning on the main current; extremely low on-state voltage drop and low
full-load conduction loss, suitable for long-term high-power continuous
conduction.
3.
Hard turn-off function (IGCT core advantage): Applying a reverse commutation
pulse to the gate completes hard turn-off within 10μs, eliminating the need for
a large-capacity dv/dt buffer absorption circuit (unbuffered operation), with a
maximum fundamental frequency of 2kHz and a pulse condition up to 30kHz,
significantly simplifying the converter's peripheral circuitry and improving
system power density; it can withstand a peak turn-off short-circuit current of
32kA, exhibiting extremely strong short-circuit withstand capability; relying on
integrated gate hard drive, it can actively force turn off thousands of amperes
of main current with a turn-off time of <10μs, unlike ordinary thyristors
which cannot self-turn off; during the turn-off process, the current is
commutated to the gate circuit, significantly reducing device stress.
4.
Snubberless Operation: The hard-commutation structure suppresses turn-off
overvoltages (dv/dt), eliminating the need for a large-capacity RC snubber
circuit, simplifying the converter topology, reducing failure rate, and lowering
overall losses and size.

5.
Unidirectional High-Voltage Interception (Asymmetrical Characteristic): It can
withstand a 4500V high-voltage DC bus in the forward direction, but only a few
volts in the reverse direction; suitable for rectifier, inverter, and chopper
unidirectional power conversion topologies, making it a mainstream choice for
medium-voltage frequency converters and SVG.
II.
Integrated Gate Driver Function (Module with Built-in Driver
Board)
The
model is compatible with the 3BHB series integrated gate unit. The gate
driver board and
thyristor body are integrated into a single package, with built-in complete
control and self-test functions:
1.
Fiber Optic Isolated Trigger Control: Utilizes fiber optic transceiver
communication, ensuring complete electrical isolation between strong and weak
currents, preventing high-voltage interference from entering the main control
system; receives fiber optic PWM pulses from the upper controller, accurately
synchronizing turn-on/turn-off timings; dynamically and automatically equalizes
voltage when multiple devices are connected in series, eliminating the need for
additional voltage equalization circuits.
2.
Gate Hard Commutation Drive: Built-in high-speed reverse commutation circuit,
instantly extracting anode current at the moment of turn-off, realizing the
unique "gate commutation" of IGCT, solving the pain points of traditional GTOs
such as high turn-off loss, slow turn-off, and the need for complex buffer
circuits.
III.
Core Functions of Power Conversion (System-Level Role)
1.
Medium and High Voltage Variable Frequency Drive: High-Power Motor Speed
Control
As
a core component of the power unit of the ACS6000/ACS8000 medium-voltage
variable frequency drive:
It
achieves AC-DC-AC conversion, outputting adjustable voltage and frequency to
drive rolling mills, mine hoists, large water pumps, and compressors;
It
precisely adjusts motor torque and speed through PWM high-frequency chopping,
achieving heavy-load soft start, energy-saving speed regulation, and
four-quadrant energy feedback.
2.
Power Grid Quality Management (Flexible Transmission FACTS)
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SVG/STATCOM
Static Var Generator: High-frequency fast chopping (response <5ms),
dynamically compensating for reactive power, suppressing voltage flicker, and
controlling harmonics, stabilizing the grid voltage of industrial/mining/new
energy power plants;
SVC
Static Var Compensator and High-Voltage Rectifier: Power flow regulation and
DC-side voltage stabilization.
3.
New Energy Grid-Connected Converter
Wind/Photovoltaic
High-Power Grid-Connected Inverter Power Switch:
DC
high-voltage to AC power frequency conversion, stabilizing new energy grid
connection and improving grid compatibility;
Three-level
T-type topology, full-load conversion efficiency >99%, reducing power
generation losses.
4.
High-Voltage Direct Current Transmission (HVDC), Rail Transit, Ship
Propulsion
High-Voltage
Converter Unit: AC/DC bidirectional energy transmission, long-distance power
transmission;
Locomotive/Ship
Traction Converter: High-power traction motor drive, high-power energy
regenerative braking.
IV.
Built-in Electrical Withstand and System Protection Functions
1.
Short-Time Ultra-Large Surge Withstand: Can withstand tens of kiloamperes of
non-repetitive surge current, withstand instantaneous impact of system short
circuits, and achieve short-circuit current limiting protection in conjunction
with the drive board.
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2.
Wide Temperature Stable Operation: Switching and conduction performance shows no
significant attenuation within a junction temperature range of -40℃ to +125℃,
suitable for harsh high and low temperature industrial environments such as
metallurgy, mining, and outdoor wind power.
3.
Press-pack Packaging for Heat Dissipation and Mechanical Reliability:
Double-sided press-pack structure allows for double-sided water/air cooling,
resulting in extremely low thermal resistance. Hermetically sealed packaging
provides dust and moisture protection, supporting over 20 years of long-term
industrial service. It is less prone to explosion and fire after a failure,
offering superior safety compared to plastic-encapsulated IGBTs.
4.
Fiber Optic Isolation Drive for Interference Resistance: Gate control utilizes
fiber optic signal transmission, ensuring complete isolation between strong and
weak currents. Electromagnetic interference from the high-voltage bus prevents
false triggering/shutdown of devices, improving converter operational
stability.
5.
On-State Overcurrent and Short Circuit Protection: Real-time anode current
acquisition triggers microsecond-level hard shutdown in case of short circuits
or load overcurrent. Simultaneously, a fiber optic fault alarm is fed back to
the host computer, and the entire converter pulse output is blocked to prevent
power device failure.
6.
Over-Temperature Monitoring and Protection: The module has a built-in
temperature sampling circuit that monitors the chip junction temperature and the
heat sink substrate temperature. When the threshold is exceeded, power is first
reduced; if the limit is exceeded, the trigger pulse is directly blocked,
achieving overheat shutdown protection.
7.
Overvoltage and dv/dt Anomaly Monitoring: Real-time monitoring of turn-off peak
voltage and voltage change rate; automatically adjusts switching sequence to
suppress voltage spikes and reduce device stress in case of anomalies;
simultaneously reports fault codes.
8.
Driver Power Supply Self-Test and Fiber Optic Communication Diagnosis: Power-on
self-test for 24V gate drive power supply and fiber optic link disconnection;
direct switch blocking in case of fiber loss or driver power supply undervoltage
to prevent uncontrolled conduction and system short circuits.
V.
Supporting Gate Drive Collaboration Functions (Integrated Unit
Functions)
The
device cannot be used alone; it forms a complete IGCT power unit with
the integrated driver board. The driver board provides the following auxiliary
functions:
Fiber
optic signal decoding and high drive current output (200A peak gate current
during turn-on/turn-off);
Device
junction temperature monitoring, overcurrent, overvoltage, and underdrive fault
detection;
Fault
signal feedback to the main control system enables
rapid shutdown protection of the entire unit, preventing IGCT overcurrent
burnout.
As
a fully controlled high-power switch, it undertakes four core power conversion
tasks in medium-voltage converters:
1.
Controllable Rectification: Controllably rectifies industrial frequency AC power
into high-voltage DC power. The DC output voltage is controlled by adjusting the
switching phase, used in medium-voltage rectifier bridges for wind power,
rolling mills, and mining machinery.
2.
DC-AC Inverter (Core Application): Inverts high-voltage DC power into frequency-
and voltage-adjustable medium-voltage AC power. It is the core power unit in
medium-voltage frequency converters, wind power converters, and photovoltaic
centralized inverters, driving thousands of kW high-voltage motors and enabling
grid-connected power generation from new energy sources.
3.
Dynamic Reactive Power Compensation (SVC/STATCOM): Quickly switches
reactors/capacitors to adjust grid reactive power in real time, stabilizing grid
voltage and suppressing harmonics. Used in high-power compensation devices in
substations and metallurgical steel plants.
4.
DC Transmission/Energy Storage Converter: A high-voltage DC converter valve
submodule switch enables bidirectional energy flow, suitable for energy storage
power stations and lightweight high-voltage DC transmission systems.
5.
Multi-device series and parallel capacity expansion: Devices support stable
series connection (increasing withstand voltage) and parallel connection
(increasing current carrying capacity). The drive has built-in dynamic
voltage/current equalization function. A single system can be expanded to a
power level of hundreds of MVA, suitable for large-scale steel rolling mills,
ship propulsion, and ultra-high power equipment in power plant auxiliary
equipment.
6.
Contactless high-power switch: Replaces high-voltage vacuum contactors and
thyristor valve groups, eliminating mechanical contact wear, providing
microsecond-level operation, and significantly extending lifespan under frequent
switching conditions. Suitable for metallurgical and mining loads with frequent
speed regulation.
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7.
System fault feedback and diagnosis: Fault signals are transmitted back to the
main control PLC/converter controller via
fiber optic cable, which can distinguish between overcurrent, overtemperature,
fiber optic disconnection, and drive faults, facilitating on-site fault location
and repair.
VI.
Key Supporting Performance Functions (Packaging and Heat
Dissipation)
Employs
StakPak Press-fit Double-sided Water-cooled Packaging:
Double-sided
thermal conductivity and heat dissipation, with heat dissipation efficiency far
exceeding that of single-substrate modules, supporting continuous 3500A
full-load long-term operation;
Pack-fit
solderless structure, less prone to delamination and cracking under thermal
cycling shock, with reliability far exceeding that of soldered IGBT modules in
high-temperature and vibration industrial scenarios;
Standardized
mechanical interfaces, compact arrangement of multiple modules, reducing the
size of the converter cabinet.
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