Infineon Technologies BSM15GP60BOSA1
- Part No.:
- BSM15GP60BOSA1
- Manufacturer:
- Infineon Technologies
- Category:
- IGBT Modules
- Package:
- Module
- Description:
- IGBT MODULE 600V 25A 100W
- Quantity:
- Payment:

- Shipping:

Inventory:3,588
Please send an inquiry. Send us your inquiry, and we will respond immediately.
Product details
Overview
BSM15GP60BOSA1 from Infineon Technologies is a BSM15GP60 IGBT power module designed for compact inverter power stages, motor-drive systems, rectifier-fed DC bus architectures, brake-chopper circuits, and industrial power conversion equipment. The module integrates a 600V IGBT inverter section, inverter freewheel diodes, a brake-chopper transistor, brake-chopper diode, rectifier diode section, module isolation, and an internal NTC thermistor in one power-module platform.
The BSM15GP60BOSA1 module is positioned for systems that require more than a discrete IGBT switch. Its integrated module structure helps combine input rectification, DC-link inverter switching, braking-energy control, thermal sensing, and isolated mounting in a single assembly. For engineers reviewing the BSM15GP60BOSA1 datasheet, BSM15GP60BOSA1 pinout, BSM15GP60BOSA1 application, or BSM15GP60BOSA1 equivalent, this device is suitable for small and medium motor drives, industrial inverters, pump controllers, fan drives, servo-related power stages, and compact AC drive equipment.
Technical Context
In an inverter drive architecture, BSM15GP60BOSA1 can be used as a compact power stage between the rectified mains input, DC-link capacitor, motor phase output, and braking resistor path. The rectifier diode section supports AC-to-DC input conversion, while the 600V inverter transistor section switches the DC bus into a controlled output waveform for motor or inductive-load operation.
The inverter transistor section is rated for 600V collector-emitter blocking voltage, 15A nominal collector current at TC = 80°C, 25A collector current at TC = 25°C, and 30A repetitive peak collector current under the specified pulse condition. The inverter IGBT saturation voltage is 1.95V typical and 2.45V maximum at VGE = 15V, Tvj = 25°C, and IC = 15A, with typical switching delay and energy values defined at 300V, ±15V gate drive, and 67Ω gate resistance.
The brake-chopper transistor section is also rated for 600V collector-emitter voltage, with 10A nominal collector current at TC = 80°C and 20A collector current at TC = 25°C. This section allows the module to control braking energy through an external braking resistor when the DC bus rises during motor deceleration or regenerative load conditions.
The integrated NTC thermistor provides module baseplate temperature feedback. With a 5kΩ rated resistance at 25°C and B25/50 value of 3375K, the NTC can be connected to the control board to support thermal monitoring, fan control, derating, and shutdown logic. The module also provides 2.5kV RMS isolation test voltage for the isolated baseplate structure, supporting mechanically mounted power-stage designs.
Key Specifications
| Parameter | Value and Actual Design Meaning |
|---|---|
| Device Type | Integrated IGBT power module with rectifier diode section, inverter IGBT section, inverter diode section, brake-chopper transistor, brake-chopper diode, and NTC thermistor. |
| Module Family | BSM15GP60 IGBT module platform for compact inverter and drive power-stage designs. |
| Module Isolation | 2.5kV RMS insulation test voltage at 50Hz for 1 minute, with NTC connected to baseplate. |
| Rectifier Diode Voltage | 1600V repetitive peak reverse voltage, supporting input rectification and DC-link formation. |
| Rectifier Diode Current | 40A RMS forward current per chip and 15A DC forward current at TC = 80°C. |
| Rectifier Surge Current | 300A surge forward current at tp = 10ms and Tvj = 25°C; 230A at Tvj = 150°C. |
| Inverter IGBT Voltage | 600V collector-emitter voltage for the inverter transistor section. |
| Inverter IGBT Current | 15A nominal collector current at TC = 80°C and 25A DC collector current at TC = 25°C. |
| Inverter Peak Collector Current | 30A repetitive peak collector current at tp = 1ms and TC = 80°C. |
| Inverter IGBT Power Dissipation | 100W total power dissipation at TC = 25°C. |
| Inverter IGBT VCE(sat) | 1.95V typical and 2.45V maximum at VGE = 15V, Tvj = 25°C, and IC = 15A; 2.2V typical at Tvj = 125°C. |
| Inverter IGBT Gate Threshold | 4.5V minimum, 5.5V typical, and 6.5V maximum at VCE = VGE, Tvj = 25°C, and IC = 0.4mA. |
| Inverter IGBT Input Capacitance | 0.8nF typical at f = 1MHz, Tvj = 25°C, VCE = 25V, and VGE = 0V. |
| Inverter Switching Energy | 0.7mWs turn-on energy and 0.5mWs turn-off energy at IC = INenn, VCC = 300V, VGE = ±15V, Tvj = 125°C, RG = 67Ω, and LS = 75nH. |
| Inverter Freewheel Diode Current | 15A DC forward current at TC = 80°C and 30A repetitive peak forward current at tp = 1ms. |
| Inverter Diode Forward Voltage | 1.25V typical and 1.7V maximum at VGE = 0V, Tvj = 25°C, and IF = 15A; 1.2V typical at Tvj = 125°C. |
| Brake-Chopper IGBT Voltage | 600V collector-emitter voltage for braking resistor control and DC-link energy dissipation circuits. |
| Brake-Chopper IGBT Current | 10A nominal collector current at TC = 80°C and 20A DC collector current at TC = 25°C. |
| Brake-Chopper IGBT VCE(sat) | 1.95V typical and 2.35V maximum at VGE = 15V, Tvj = 25°C, and IC = 10A; 2.2V typical at Tvj = 125°C. |
| Brake-Chopper Diode Current | 10A DC forward current at TC = 80°C and 20A repetitive peak forward current at tp = 1ms. |
| NTC Thermistor | 5kΩ rated resistance at 25°C, R100 = 493Ω reference, ±5% deviation of R100, and B25/50 value of 3375K. |
| Module Stray Inductance | 100nH maximum module stray inductance, relevant to switching overshoot and snubber design. |
| Junction Temperature | 150°C maximum junction temperature. |
| Operating Temperature | -40°C to +125°C operating temperature range. |
| Storage Temperature | -40°C to +125°C storage temperature range. |
| Internal Insulation | Al2O3 internal insulation with CTI value of 225. |
| Mounting Torque | 3Nm mounting torque with ±10% tolerance for mechanical fastening. |
| Weight | 180g module weight. |
Pinout & Package
The BSM15GP60BOSA1 pinout uses a multi-terminal IGBT module layout rather than a discrete three-pin transistor package. The module contains internal connections for the rectifier diode stage, inverter IGBT bridge section, inverter freewheel diodes, brake-chopper IGBT, brake-chopper diode, and NTC thermistor. The circuit diagram assigns numbered module terminals for AC input, DC bus, inverter output nodes, gate/emitter control connections, brake-chopper path, and NTC sensor connections.
For PCB or busbar implementation, power terminals should be routed with low inductance and appropriate creepage and clearance for the DC bus voltage. Gate-drive loops for the inverter transistors and brake chopper should be kept short and referenced to the correct emitter terminals. The NTC terminals should be routed separately from high-current switching paths to preserve temperature-measurement accuracy and reduce noise injection into the control board.
| Pin / Function | PCB Design and Circuit Role |
|---|---|
| Rectifier Diode Terminals | Connect the AC input or rectifier-side current path to the DC-link section; layout should support surge current and thermal dissipation. |
| DC Bus Terminals | Connect to the DC-link capacitor and inverter power stage; low-inductance busbar or copper layout reduces voltage overshoot. |
| Inverter IGBT Gate Terminals | Receive isolated or referenced gate-driver signals for inverter switching; gate resistors and driver return routing control EMI and switching behavior. |
| Inverter Emitter / Kelvin Reference Connections | Provide gate-driver return references and power-emitter current paths; separation of control and power return improves switching stability. |
| Inverter Output Nodes | Connect to motor phase or load output terminals; output routing must support phase current and insulation requirements. |
| Brake-Chopper Gate and Emitter Terminals | Control the braking transistor for DC-link overvoltage energy dissipation through an external brake resistor. |
| Brake-Chopper Power Path | Connects the DC-link braking path; layout should account for pulse energy, resistor connection, and transient voltage stress. |
| NTC Terminals | Provide module baseplate temperature feedback for controller-side thermal monitoring, derating, and shutdown functions. |
| Isolated Module Baseplate | Supports heatsink mounting while maintaining internal isolation; thermal grease, mounting pressure, and torque control affect thermal resistance. |
Key Features
- Integrated BSM15GP60 IGBT module for compact inverter and motor-drive power stages.
- 600V inverter IGBT section with 15A nominal collector current at TC = 80°C.
- Integrated 1600V rectifier diode section for input rectification and DC-link generation.
- Integrated inverter freewheel diode section for inductive-load current commutation.
- Integrated 600V brake-chopper transistor for braking resistor control.
- Integrated brake-chopper diode supporting the braking energy path.
- Internal NTC thermistor supports module temperature monitoring and protection logic.
- 2.5kV RMS module isolation test voltage supports isolated heatsink mounting.
- Al2O3 internal insulation and 180g module construction for power-stage mechanical integration.
- Defined thermal resistance values for rectifier diode, inverter transistor, inverter diode, brake transistor, and brake diode sections.
Applications
| Motor Drives & Frequency Inverters | Industrial Pump and Fan Controllers |
|---|---|
|
Use Scenario: Compact inverter drives, three-phase motor controllers, variable-speed motor systems, and small industrial drive platforms. Module Role: BSM15GP60BOSA1 provides the inverter IGBT switching stage, freewheel diode paths, rectifier support, and brake-chopper function within one module. Use Value: Reduces discrete power-device count and simplifies power-stage integration for inverter-based motor control. |
Use Scenario: Pump drives, fan drives, blower controls, and HVAC-related inverter equipment. Module Role: Converts the rectified DC bus into controlled motor drive output while supporting thermal monitoring through the internal NTC. Use Value: Provides a compact isolated power module for variable-speed control equipment requiring braking and protection features. |
| Brake-Chopper DC-Link Control | Compact Industrial Power Conversion |
|
Use Scenario: Systems where motor deceleration, regenerative loading, or load dumping can raise the DC-link voltage. Module Role: The integrated brake-chopper transistor and diode support controlled energy dissipation through an external braking resistor. Use Value: Helps protect the DC bus from overvoltage and supports controlled deceleration in motor-drive equipment. |
Use Scenario: Industrial control cabinets, embedded drive modules, compact AC drive assemblies, and repair or replacement power-stage designs. Module Role: Combines rectification, inverter switching, braking, isolation, and temperature sensing in a single module. Use Value: Improves assembly density and simplifies procurement compared with building the same power stage from multiple discrete devices. |
Equivalent & Alternatives
When evaluating BSM15GP60BOSA1 equivalent modules, engineers should compare module topology, 600V IGBT ratings, rectifier voltage and current ratings, brake-chopper current rating, NTC characteristics, isolation voltage, module terminal layout, mounting torque, thermal resistance, and mechanical package compatibility.
| Alternative Part | Technical Difference | Application Difference | Selection Advice |
|---|---|---|---|
| BSM15GP60 | Base BSM15GP60 module designation with the same electrical platform referenced by the technical data. | Used when the system BOM is specified by the base module family rather than a specific order suffix. | Choose BSM15GP60BOSA1 when procurement, marking, or system records require the BOSA1 orderable version. |
| BSM15GD60DN2 | Related Infineon 600V IGBT module family with different module topology, package, and terminal arrangement. | Used in inverter power stages where topology and mechanical layout match the target system. | Choose BSM15GP60BOSA1 when the design requires the integrated GP-style rectifier, inverter, brake-chopper, and NTC module structure. |
| SKiiP / SEMIKRON 600V 15A-class IGBT module | Alternative manufacturer module family with different internal topology, gate connections, baseplate, isolation, and thermal behavior. | Used only after full mechanical, electrical, gate-drive, and thermal redesign review. | Choose BSM15GP60BOSA1 when drop-in continuity, Infineon/eupec module behavior, and existing mechanical layout must be maintained. |
| Mitsubishi 600V small IPM / IGBT module | May include different driver integration, protection features, terminal layout, current rating, and package format. | Used in new inverter designs where the control architecture can accept a different module structure. | Choose BSM15GP60BOSA1 when the existing design uses external gate drivers and the BSM15GP60 terminal/circuit structure. |
Compared with a discrete IGBT and diode design, BSM15GP60BOSA1 provides a more integrated module-level solution with rectifier, inverter, braking, isolation, and NTC functions in one assembly. Compared with alternative 600V 15A-class IGBT modules, substitution should be based on circuit topology, terminal mapping, thermal resistance, isolation, mounting structure, gate-drive requirements, and braking-path compatibility rather than voltage and current ratings alone.
Quality
BSM15GP60BOSA1 should be sourced as original Infineon Technologies components through traceable and controlled supply channels. Quality verification procedures may include module marking inspection, terminal condition inspection, isolation review, NTC resistance measurement, gate-emitter leakage testing, collector-emitter leakage testing, VCE(sat) verification, diode forward-voltage testing, and incoming inspection according to power-module production requirements.
Because the module operates in high-voltage inverter and braking circuits, reliability depends on correct gate-drive voltage, gate resistance selection, DC-link layout, thermal-interface material, mounting torque, heatsink flatness, insulation spacing, NTC monitoring, overcurrent protection, brake-resistor sizing, and validation under worst-case load and temperature conditions. Traceable sourcing helps reduce counterfeit and refurbishment risk for legacy power-module replacement and production programs.
Availability
BSM15GP60BOSA1 available at Aetrix Electronics and suitable for motor drives, compact frequency inverters, pump controllers, fan drives, industrial power converters, braking-control systems, and legacy inverter module replacement requiring stable component supply and repeatable production support.
Supply support may include scheduled delivery planning, volume procurement support, legacy BOM sourcing, traceable sourcing management, and long-term availability support for OEM manufacturers, industrial drive builders, equipment repair programs, control-cabinet manufacturers, and power-electronics production operations.
For production deployment, confirming module topology, voltage rating, current rating, terminal mapping, brake-chopper function, NTC behavior, isolation requirement, mounting torque, thermal path, and sourcing continuity helps reduce procurement risk and improve manufacturing stability.
Manufacturer
Infineon Technologies is a semiconductor manufacturer specializing in power semiconductors, IGBT modules, MOSFETs, gate drivers, microcontrollers, sensors, security ICs, automotive electronics, and industrial power-management solutions for energy, mobility, automation, communication, and consumer applications.
The Infineon and eupec IGBT module portfolio focuses on high-voltage switching, inverter power stages, isolated module construction, integrated diode and brake-chopper options, thermal monitoring, rugged industrial operation, and long-term support for motor drives, industrial converters, UPS systems, renewable energy equipment, and power-control applications.
FAQ
What is BSM15GP60BOSA1 used for?
BSM15GP60BOSA1 is used in compact inverter power stages, motor drives, pump controllers, fan drives, brake-chopper systems, industrial power converters, and equipment requiring an integrated 600V IGBT module with rectifier, inverter, braking, and NTC functions.
Where can I find the BSM15GP60BOSA1 datasheet download?
The BSM15GP60BOSA1 technical data is associated with the BSM15GP60 IGBT module documentation, which includes maximum ratings, characteristic values, thermal properties, NTC data, circuit diagram, package outline, and terminal information.
What should be considered in BSM15GP60BOSA1 module design?
Design review should include DC-link voltage, inverter current, brake-chopper energy, gate-drive voltage, gate resistance, terminal mapping, busbar inductance, heatsink interface, mounting torque, isolation spacing, NTC monitoring, and overcurrent protection.
Does BSM15GP60BOSA1 include a brake chopper?
Yes. The BSM15GP60 module structure includes a brake-chopper transistor and brake-chopper diode, allowing an external braking resistor path to be controlled for DC-link overvoltage and regenerative-energy management.
Does BSM15GP60BOSA1 include an NTC thermistor?
Yes. The module includes an NTC thermistor with 5kΩ rated resistance at 25°C and B25/50 value of 3375K for module temperature monitoring.
What are common BSM15GP60BOSA1 equivalent solutions?
Common alternatives may include the base BSM15GP60 module designation, related Infineon 600V IGBT modules, and selected 600V 15A-class modules from other manufacturers. Any replacement should be checked for topology, terminal layout, isolation, brake-chopper function, NTC characteristics, thermal resistance, gate-drive compatibility, and mechanical mounting compatibility.
BSM15GP60BOSA1 Specifications
- Product attributes
- Attribute value
- Manufacturer:
- Infineon Technologies
- Series:
- -
- Package/Case:
- Module
- Packaging:
- Bulk
- Product Status:
- Obsolete
- IGBT Type:
- -
- Configuration:
- Three Phase Inverter
- Voltage - Collector Emitter Breakdown (Max):
- 600 V
- Current - Collector (Ic) (Max):
- 25 A
- Power - Max:
- 100 W
- Vce(on) (Max) @ Vge, Ic:
- 2.45V @ 15V, 15A
- Current - Collector Cutoff (Max):
- 500 µA
- Input Capacitance (Cies) @ Vce:
- -
- Input:
- Three Phase Bridge Rectifier
- NTC Thermistor:
- Yes
- Operating Temperature:
- -40°C ~ 125°C
- Mounting Type:
- Chassis Mount
- Supplier Device Package:
- Module
BSM15GP60BOSA1 FAQ
1.How can I place an order for BSM15GP60BOSA1 through Aetrix?
Please submit a Request for Quotation (RFQ) for BSM15GP60BOSA1 on Aetrix. Our sales agent will provide a competitive quotation and guide you through the order confirmation once you accept the terms.
2.Are the price and stock information for BSM15GP60BOSA1 reliable?
The price and inventory of BSM15GP60BOSA1 are updated periodically and may fluctuate due to market conditions. Stock and pricing data are typically refreshed every 24 hours. Quotation validity for BSM15GP60BOSA1 is usually 5 days.
3.What payment methods are accepted for BSM15GP60BOSA1?
We accept Wire Transfer, PayPal, Credit Card, Western Union, MoneyGram, and Escrow for BSM15GP60BOSA1 transactions.
Note: Certain payment methods may incur a processing fee.
4.How is shipping managed for BSM15GP60BOSA1?
BSM15GP60BOSA1 orders can be shipped via leading logistics carriers, including DHL, UPS, FedEx, TNT, or Registered Mail.
Once your BSM15GP60BOSA1 order is processed, you will receive an email with the shipment details and tracking number.
Note: Tracking information may take up to 24 hours to appear. Express delivery typically takes 3–5 business days.
5.How can I obtain technical support or documentation for BSM15GP60BOSA1?
For technical support, including BSM15GP60BOSA1 datasheets, pinout diagrams, or application guidance, please contact our engineering support team. They can provide detailed documentation and assistance for your BSM15GP60BOSA1 requirements.
6.How does Aetrix verify that BSM15GP60BOSA1 is sourced from the original manufacturer or authorized distributors?
All BSM15GP60BOSA1 products on Aetrix are procured from qualified distributors and authorized channels. Our dedicated quality assurance team conducts strict verification, including traceability checks and, if necessary, third-party testing. This ensures that BSM15GP60BOSA1 meets industry standards.
7.What is the process for return or replacement of BSM15GP60BOSA1?
All BSM15GP60BOSA1 units undergo pre-shipment inspection (PSI). If there is an issue with BSM15GP60BOSA1, returns or replacements are accepted under the following conditions:
1.Quantity discrepancies, incorrect items, or visible external defects (such as breakage or corrosion), acknowledged by Aetrix.
2.The issue is reported within 90 days of delivery.
3.The BSM15GP60BOSA1 part is unused and in its original packaging.
Return procedure for BSM15GP60BOSA1:
1.Submit a request within 90 days.
2.Obtain a Return Material Authorization (RMA) from Aetrix.
BSM15GP60BOSA1 Tags
-
APT60GA60JD60
Microchip Technology

-
F3L25R12W1T4B27BOMA1
Infineon Technologies

-
IXGN320N60A3
IXYS

-
IXYN110N120C4H1
IXYS

-
VS-GT180DA120U
Vishay General Semiconductor - Diodes Division

-
IXDN75N120
IXYS

-
IXGN100N170
IXYS
-
FZ400R12KE4HOSA1
Infineon Technologies
-
FF200R12KE4HOSA1
Infineon Technologies
-
FF200R06KE3HOSA1
Infineon Technologies
-
FF300R12KT4HOSA1
Infineon Technologies
-
FF400R06KE3HOSA1
Infineon Technologies
Tech Hub
Amplifier guide covering voltage, current and power amplification, gain, feedback, amplifier classes, audio and RF applications, op-amp circuits, transimpedance amplifiers, datasheet selection and trou…
Machine vision system guide covering components, inspection workflow, camera and lens selection, FOV, pixel resolution, motion blur, strobe lighting, bandwidth, 2D/3D vision, integration, troubleshooti…
Electronic devices and circuits guide covering passive components, semiconductors, analog and digital circuits, circuit theory, practical calculations, troubleshooting, datasheet selection, and learnin…
Oil pressure sensor diagnosis covering symptoms, location, testing, replacement, socket access, common failure cases, and the electronic signal path between the pressure sensor, wiring, ECU and gauge s…
MLCC ESR, impedance and self-resonant frequency in decoupling networks. Covers PDN behavior, frequency response, measurement methods, failure cases and practical capacitor selection for power integrity…
An actuator converts a control signal and energy source into mechanical motion. This guide explains actuator types, working principles, electric and linear actuators, automotive use cases, troubleshoot…
A potentiometer is a three-terminal adjustable resistor used for voltage division, analog control, calibration and signal adjustment. This guide explains wiring, symbols, types, 10k values, digital pot…
An FPGA is reconfigurable digital hardware used for custom logic, parallel processing, low-latency I/O and interface control. This guide explains FPGA meaning, architecture, boards, programming flow, a…
A logic gate is a basic digital circuit that uses Boolean logic to convert binary inputs into one output. This guide explains AND, OR, NOT, NAND, NOR, XOR, truth tables, universal gates, logic ICs and …
A mass air flow sensor, often called a MAF sensor, measures the amount of air entering an engine.
