Hefei Purple Horn E-Commerce Co., Ltd.
| Pd - Power Dissipation | 3.95kW |
| Td(off) | 625ns |
| Td(on) | 435ns |
| Collector-Emitter Breakdown Voltage (Vces) | 1.2kV |
| Reverse Transfer Capacitance (Cres) | 1.47nF |
| Input Capacitance(Cies) | 128nF |
| IGBT Type | FS (Field Stop) |
| Gate-Emitter Threshold Voltage (Vge(th)@Ic) | 5.2V@23mA |
| Gate Charge(Qg) | 7.4uC |
| Operating Temperature | -40℃~+150℃ |
| Pulsed Current- Forward(Ifm) | 1200A |
| Switching Energy(Eoff) | 35mJ |
| Turn-On Energy (Eon) | 55mJ |
| Description | 3.95kW 1.2kV FS (Field Stop) E3 Single IGBTs RoHS |
| Mfr. Part # | MCF600N120S2E3 |
| Package | E3 |
| Model Number | MCF600N120S2E3 |
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Product Specification
| Pd - Power Dissipation | 3.95kW | Td(off) | 625ns |
| Td(on) | 435ns | Collector-Emitter Breakdown Voltage (Vces) | 1.2kV |
| Reverse Transfer Capacitance (Cres) | 1.47nF | Input Capacitance(Cies) | 128nF |
| IGBT Type | FS (Field Stop) | Gate-Emitter Threshold Voltage (Vge(th)@Ic) | 5.2V@23mA |
| Gate Charge(Qg) | 7.4uC | Operating Temperature | -40℃~+150℃ |
| Pulsed Current- Forward(Ifm) | 1200A | Switching Energy(Eoff) | 35mJ |
| Turn-On Energy (Eon) | 55mJ | Description | 3.95kW 1.2kV FS (Field Stop) E3 Single IGBTs RoHS |
| Mfr. Part # | MCF600N120S2E3 | Package | E3 |
| Model Number | MCF600N120S2E3 |
The JIANGSUCHANGJING ELECTRONICS TECHNOLOGY CO., LTD MCF600N120S2E3 module features advanced Trench and FS (Field Stop) IGBT technology, offering very low Collector-Emitter Saturation Voltage. It is designed for ease of use in drives and inverters, providing high reliability, high short circuit capability, and low switching loss. Applications include Solar Inverters, Uninterrupted Power Supplies, Servo Drivers, and Motor Drivers.
| Parameter | Symbol | Condition | Value | Units |
|---|---|---|---|---|
| Absolute Maximum Ratings | ||||
| Collector-Emitter Voltage | VCES | 1200 | V | |
| Gate-Emitter Voltage | VGES | ±20 | V | |
| DC Collector Current | IC | Tc=100 | 600 | A |
| Peak Collector Current | ICM | tp=1ms | 1200 | A |
| Continuous Diode Forward Current | IF | 600 | A | |
| Diode Peak Forward Current | IFRM | tp=1ms | 1200 | A |
| IGBT Maximum Power Dissipation | PD | 3950 | W | |
| IGBT Short Circuit Withstand Time | tsc | 10 | μs | |
| Maximum Junction Temperature | TvJ MAX | 175 | ||
| Operating Junction Temperature | TvJ | -40 to 150 | ||
| Storage Temperature | TSTG | -40 to 125 | ||
| Maximum lead temperature for soldering | TL | 260 | ||
| Electrical Characteristics | ||||
| Collector-Emitter Saturation Voltage | VCE(sat) | IC=600A, Tvj=25 | 1.75 - 2.15 | V |
| Collector-Emitter Saturation Voltage | VCE(sat) | IC=600A, Tvj=125 | 2.20 | V |
| Collector-Emitter Saturation Voltage | VCE(sat) | IC=600A, Tvj=150 | 2.25 | V |
| Gate-Emitter Threshold Voltage | VGE(th) | IC=23mA, VCE=VGE | 5.20 - 6.40 | V |
| Collector-Emitter Cut-off Current | ICES | VCE=1200V, VGE=0V | 1 | mA |
| Gate-Emitter Leakage Current | IGES | VCE=0V, VGE=±20V | -100 - 100 | nA |
| Internal Gate Resistance | RGint | Tvj=25 | 1.20 | Ω |
| Gate Charge | QG | VGE=-15V~+15V | 7.4 | μC |
| Input Capacitance | Cies | VCE=25V, VGE=0V, f=1MHz | 128 | nF |
| Reverse Transfer Capacitance | Cres | 1.47 | nF | |
| Turn-on Delay Time | td(on) | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=25 | 435 | ns |
| Turn-on Delay Time | td(on) | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=125 | 450 | ns |
| Turn-on Delay Time | td(on) | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=150 | 450 | ns |
| Rise Time | tr | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=25 | 115 | ns |
| Rise Time | tr | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=125 | 160 | ns |
| Rise Time | tr | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=150 | 170 | ns |
| Turn-off Delay Time | td(off) | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=25 | 625 | ns |
| Turn-off Delay Time | td(off) | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=125 | 680 | ns |
| Turn-off Delay Time | td(off) | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=150 | 700 | ns |
| Fall Time | tf | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=25 | 90 | ns |
| Fall Time | tf | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=125 | 200 | ns |
| Fall Time | tf | IC=600A, VCE=600V, VGE=±15V, RGon=1.5Ω, RGoff=1.5Ω, Inductive Load, Tvj=150 | 235 | ns |
| Turn-on Energy Loss | Eon | IC=600A, VCE=600V, VGE=±15V, RG=1.5Ω, Tvj=25 | 55 | mJ |
| Turn-on Energy Loss | Eon | IC=600A, VCE=600V, VGE=±15V, RG=1.5Ω, Tvj=125 | 100 | mJ |
| Turn-on Energy Loss | Eon | IC=600A, VCE=600V, VGE=±15V, RG=1.5Ω, Tvj=150 | 110 | mJ |
| Turn-off Energy Loss | Eoff | IC=600A, VCE=600V, VGE=±15V, RG=1.5Ω, Tvj=25 | 35 | mJ |
| Turn-off Energy Loss | Eoff | IC=600A, VCE=600V, VGE=±15V, RG=1.5Ω, Tvj=125 | 50 | mJ |
| Turn-off Energy Loss | Eoff | IC=600A, VCE=600V, VGE=±15V, RG=1.5Ω, Tvj=150 | 60 | mJ |
| Short Circuit Current | ISC | VGE≤15V, tp≤10us, VCC=800V, Tvj=150 | 2650 | A |
| Diode Electrical Characteristics | ||||
| Forward Voltage | VF | IF=600A, Tvj=25 | 1.75 - 2.15 | V |
| Forward Voltage | VF | IF=600A, Tvj=125 | 1.90 | V |
| Forward Voltage | VF | IF=600A, Tvj=150 | 1.90 | V |
| Reverse Recovery Current | Irr | IF=600A, VR=600V, VGE=-15V, diF/dt=-2700A/μs (Tvj=150), Tvj=25 | 460 | A |
| Reverse Recovery Current | Irr | IF=600A, VR=600V, VGE=-15V, diF/dt=-2700A/μs (Tvj=150), Tvj=125 | 450 | A |
| Reverse Recovery Current | Irr | IF=600A, VR=600V, VGE=-15V, diF/dt=-2700A/μs (Tvj=150), Tvj=150 | 445 | A |
| Reverse Recovery Charge | Qrr | Tvj=25 | 50 | μC |
| Reverse Recovery Charge | Qrr | Tvj=125 | 95 | μC |
| Reverse Recovery Charge | Qrr | Tvj=150 | 105 | μC |
| Reverse Recovery Energy Loss | Erec | Tvj=25 | 12 | mJ |
| Reverse Recovery Energy Loss | Erec | Tvj=125 | 25 | mJ |
| Reverse Recovery Energy Loss | Erec | Tvj=150 | 30 | mJ |
| NTC-Thermistor | ||||
| Rated resistance | R25 | Tc=25 | 5.00 | KΩ |
| Power dissipation | P25 | 10 | mW | |
| B-value | B25/50 | R2=R25exp[B25/50(1/T2-1/(298,15K))] | 3375 | K |
| Package Properties | ||||
| IGBT Thermal Resistance: Junction to Case | Rth(J-C) | per IGBT | 0.038 | K/W |
| Diode Thermal Resistance: Junction to Case | Rth(J-C) | per Diode | 0.063 | K/W |
| IGBT Thermal Resistance: Case to Heatsink | Rth(C-H) | per IGBT, λgrease=1W/(m•K) | 0.029 | K/W |
| Diode Thermal Resistance: Case to Heatsink | Rth(C-H) | per Diode, λgrease=1W/(m•K) | 0.048 | K/W |
| Isolation Voltage | Visol | RMS, f=50Hz, t=60s | 3.4 | V |
| Creepage Distance | dcr | Terminal to Heatsink | 14 | mm |
| Creepage Distance | dcr | Terminal to Terminal | 13.5 | mm |
| Clearance Distance | dcl | Terminal to Heatsink | 12.5 | mm |
| Clearance Distance | dcl | Terminal to Terminal | 10 | mm |
| Comparative Tracking Index | CTI | >200 | ||
| Module Stray Inductance | Ls | CE per Switch | 20 | nH |
| Module lead Resistance | RCC`+EE` | Terminal to Chip per Switch, TC=25 | 1.1 | mΩ |
| Mounting Torques | M | Baseplate to Heatsink, M5 | 3 - 6 | Nm |
| Mounting Torques | M | Power Terminal, M6 | 3 - 6 | Nm |
| Module Weight | G | 350 | g | |
Company Details
Business Type:
Manufacturer,Distributor/Wholesaler,Agent,Importer
Year Established:
2009
Employee Number:
300~500
Ecer Certification:
Verified Supplier
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