The part number "IPP65R190CFD" refers to a specific IGBT (Insulated Gate Bipolar transistor ) module manufactured by Infineon Technologies. It's an industrial-grade power transistor primarily used in high-voltage and high-current applications like motor drives, inverters, and other power electronics systems.
Package and Pinout Details:
Package Type: The "IPP65R190CFD" is housed in a CFD package (commonly used for power modules) which is a cooling fin type for heat dissipation and thermal management. Pin Configuration: For this particular module, it has approximately 11 pins used for connections, including gate, collector, emitter, and temperature Sensor pins.Pin Functionality:
Below is a detailed list of the pin functions based on the IPP65R190CFD datasheet:
Pin Number Pin Name Pin Function Description 1 VCE Collector Voltage (Connects to the high-voltage side) 2 VCE Collector Voltage (Connects to the high-voltage side) 3 VCE Collector Voltage (Connects to the high-voltage side) 4 VCE Collector Voltage (Connects to the high-voltage side) 5 Gate Gate drive input (Input for controlling the transistor's switching) 6 Gate Gate drive input (Input for controlling the transistor's switching) 7 Emitter Emitter (Low-voltage side connection) 8 Emitter Emitter (Low-voltage side connection) 9 Emitter Emitter (Low-voltage side connection) 10 Temp Sensor Temperature sensor (Provides temperature feedback for the device) 11 Drain Drain (Usually connects to a cooling system)Pin Function Explanation:
Collector Pin (VCE): The collector pin(s) are designed to handle high voltage and provide the connection for the load. There are typically multiple pins connected to the high-voltage section of the power module, helping to distribute the voltage evenly across the package and reduce the electrical stress.
Gate Pin: The gate pins control the operation of the IGBT. When a voltage is applied to the gate, the transistor allows current to flow between the collector and emitter, and when the gate voltage is removed, the transistor switches off.
Emitter Pin: The emitter pins are the low-voltage side connections, typically grounded or connected to a lower potential in a power circuit.
Temperature Sensor Pin: This pin provides the module’s internal temperature data, which can be used in thermal management systems to prevent overheating by adjusting the system's power usage or triggering alarms for excessive temperatures.
FAQ (Frequently Asked Questions) for IPP65R190CFD
What is the maximum collector-emitter voltage for IPP65R190CFD? The maximum collector-emitter voltage (Vce) for the IPP65R190CFD is 650V. What is the maximum collector current for IPP65R190CFD? The maximum collector current (Ic) is 190A. What type of package is the IPP65R190CFD? The IPP65R190CFD comes in an IPM package, designed for easy integration into industrial power electronics. What is the gate threshold voltage for the IPP65R190CFD? The gate threshold voltage for this device is typically around 5V. What is the switching speed of the IPP65R190CFD? This IGBT has a switching speed that is optimized for high-performance applications, typically in the range of 100ns to 200ns. Is the IPP65R190CFD suitable for inverter applications? Yes, the IPP65R190CFD is ideal for inverter applications due to its high efficiency, fast switching times, and robust thermal performance. What is the function of the temperature sensor pin on the IPP65R190CFD? The temperature sensor pin provides feedback about the module’s internal temperature, allowing users to monitor and manage thermal conditions. How many pins does the IPP65R190CFD module have? The IPP65R190CFD module has 11 pins in total. Can the IPP65R190CFD be used in low-voltage applications? The IPP65R190CFD is primarily designed for high-voltage applications, and using it in low-voltage systems may not be optimal.What is the recommended operating temperature range for the IPP65R190CFD?
The recommended operating temperature range for the IPP65R190CFD is between -40°C to 125°C.How should the gate pins of the IPP65R190CFD be driven?
The gate pins should be driven with a proper gate driver circuit to ensure that the IGBT is turned on and off at the appropriate times.Can the IPP65R190CFD handle high-frequency switching?
Yes, the IPP65R190CFD is designed for high-frequency switching in industrial power electronics.What are the main applications of the IPP65R190CFD?
Common applications include motor drives, solar inverters, industrial power supplies, and switch-mode power supplies.Is the IPP65R190CFD compatible with all types of cooling methods?
The IPP65R190CFD is designed for use with active or passive cooling systems, depending on the specific requirements of the application.What is the power dissipation of the IPP65R190CFD?
The power dissipation will depend on the operational conditions but is designed for high efficiency to minimize heat loss.What is the power factor of the IPP65R190CFD module?
The power factor depends on the load and operating conditions; however, this module is designed to provide high power factor under typical operating conditions.Can the IPP65R190CFD be used for pulsed power applications?
Yes, the IPP65R190CFD can be used in pulsed power applications as long as the transient characteristics are within specified limits.What is the maximum gate current for the IPP65R190CFD?
The maximum gate current is typically specified as +/- 20mA.What type of drive circuit is recommended for the IPP65R190CFD?
A dedicated gate driver circuit designed for IGBTs is recommended for reliable performance and switching.Can the IPP65R190CFD withstand surge currents?
Yes, the IPP65R190CFD is designed to handle short-term surge currents, making it suitable for applications with current transients like motor drives.Let me know if you need more detailed technical specifications or any further assistance!