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FGD3N60LSD IGBT Data
Data for the FGD3N60LSD IGBT including electrical parameters, maximum current and voltage, pin connections, package type and many other datasheet details.
ON-Semiconductor's Insulated Gate Bipolar Transistors (IGBTs) provide very low conduction losses. The device is designed for applications where very low On-Voltage Drop is required.
Key details and performance parameters for the FGD3N60LSD IGBT, insulated gate bipolar transistor.
| FGD3N60LSD IGBT insulated gate bipolar transistor datasheet parameters & data |
|
|---|---|
| Parameters | Details |
| Brief description | 600V TO252 IGBT |
| Package type | TO252 (DPAK-3) |
| Collector-Emitter Voltage VCES | 600V |
| Gate-emitter voltage VGES | ±25V |
| Maximum continuous collector current IC | 6A at 25°C, 3A at 100°C |
| Maximum collector current pulsed ICM | 25A |
| Collector power dissipation PC | 40W at 25°C, derated by 0.32W/°C above this |
| Collector-emitter breakdown voltage BVCES | 600V min |
| Gate-emitter threshold voltage VGE(th) | 2.5V min, 3.2V typ, 5V max with IC = 3mA and VCE = VGE |
| Gate-emitter leakage current IGES | |
| Collector-emitter saturation voltage VCE(sat) | 1.2V typ, 1.5V max for IC = 3A and VGE = 10V 1.8V typ for IC = 6A and VGE = 10V |
| Input capacitance | 185pF typ |
| Output capacitance | 20pF typ |
| Reverse transfer capacitance capacitance | 5.5pF typ |
| Maximum junction temperature TJ °C | 150°C |
| Primary manufacturer | On-Semiconductor |
Outlines & pinout:
Explanation of IGBT parameters
| Parameter | Explanation |
|---|---|
| Collector-Emitter Voltage VCES | This is the absolute maximum operating voltage for the IGBT. It is often specified at a given temperature. |
| Gate-emitter voltage VGES | This is te maximum operating voltage between the gate and emitter of the device. |
| Transient gate-emitter voltage VGEM | This is the maximum gate emitter voltage that can be withstood for a short period - the time period of the pulse should be specified. |
| Maximum continuous collector current IC | This is the maximum continuous current that the device can handle. This is normally specified for one or more temperatures. |
| Maximum collector current pulsed ICM | This is the maximum current that cna be handled for a short period - the period of the pulse should also be specified. |
| Collector power dissipation PC | This is the maximum power that can be dissipated by the collector - often a temperature is specified and often a derating as well for higher temperatures. |
| Collector-emitter breakdown voltage BVCES | This is the voltage at which the device becomes liable to break down. It is greater or equal to the maximum operating voltage. |
| Gate-emitter threshold voltage VGE(th) | This is the voltage at which the device starts to turn on. |
| Parameter | Explanation |
|---|---|
| Gate-emitter leakage current IGES | The leakage current into / out of the gate. Being a MOS-type device this is normally very low. |
| Collector-emitter saturation voltage VCE(sat) | Similar to a standard bipolar transistor, an IGBT has a saturation voltage when the device is fully turned on. |
| Input capacitance | This is the capacitance for the gate of the device |
| Output capacitance | This is the capacitance seen at the output of the IGBT. |
| Reverse transfer capacitance capacitance | This is the capacitance between the gate and the collector terminals. |
| Transconductance | This is defined as the ratio of a change in the collector current to the corresponding change in the gate-emitter voltage and it is measured in terms of conductance in Siemens. |
| Maximum junction temperature TJ °C | This is the maximum temperature that the junction can withstand and it should be remembered that the junction will be above the package temperature and the external ambient temperature. |
These are the main IGBT parameters that have been included in our list. There are others, but these are the main ones and they help quantify the main elements of the performance.
Please note, that the data given is the best estimate we can give within a tabulated summary of this nature. Parameters also vary between manufacturers. Electronics Notes cannot accept any responsibility for errors, inaccuracies, etc, although we do endevaour to ensure the data is as accurate as possible.
Notes and supplementary information
• Availability & sources
The FGD3N60LSD is available from a number of stockists and electronic component distributors many of which are given in the table below.
FGD3N60LSD Component Distributor, Stock and Pricing
• Further details
The FGD3N60LSD IGBT features a high current capability for its size, a very low saturation voltage of typically 1.2V at 25°C and a high input impedance.
The device can be used in many areas, but specific applications may include HID lamps, as well as piezo-electric fuel injection, but there is a host of other ways in which the device can be used.
Written by Ian Poole .
Experienced electronics engineer and author.
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