IGBT power module YANGJIE MG10P12P3 optimized for motor drivers AC DC servo

MOQ：
Price：
Get Latest Price


Description	Single IGBTs RoHS
Mfr. Part #	MG10P12P3
Model Number	MG10P12P3

View Detail Information

Inquiry by Email Get Latest Price

Chat online Now Ask for best deal

Explore similar products

High speed IGBT Infineon IKW40N65H5 650 volt 40 amp featuring TRENCHSTOP 5 and

Chat online Now
650V High Speed Switching IGBT VBsemi Elec VBP165I80 with Ultra Low Gate Charge

Chat online Now
EconoDUAL3 IGBT module Infineon FF600R12ME4 with Trench Fieldstop IGBT4 and

Chat online Now
650V 60A Trench Field Stop IGBT SPTECH SPT60N65F1A1 used in solar welding and

Chat online Now

Product Details
Company Details

Product Specification


Description	Single IGBTs RoHS	Mfr. Part #	MG10P12P3
Model Number	MG10P12P3

Product Overview

The MG10P12P3 S-M452 is a high-performance IGBT module designed for demanding applications such as motor drivers, AC/DC servo drive amplifiers, and Uninterruptible Power Supplies (UPS). It features low switching losses, low VCE(sat), a positive temperature coefficient, and an integrated fast & soft recovery anti-parallel FWD. The module boasts a low inductance case, high short circuit capability (10us), and an isolated heatsink using DBC technology, with a maximum junction temperature of 175.

Product Attributes

Brand: Yangjie
Model: MG10P12P3 S-M452
Certifications: RoHS Compliant
Date: 8-Mar-23 (Rev. 1.1)

Technical Specifications

Parameter	Symbol	Conditions	Value	Unit
IGBT - Inverter Absolute Maximum Ratings
Collector-Emitter Voltage	VCES	VGE=0V, IC =1mA, Tvj=25	1200	V
Continuous Collector Current	IC	TC=100,Tvjmax=175	10	A
Repetitive Peak Collector Current	ICRM	tp=1ms	20	A
Gate-Emitter Voltage	VGES	Tvj=25	20	V
Total Power Dissipation	Ptot	TC=25, Tvjmax=175	140	W
IGBT - Inverter Characteristic Values
Gate-emitter Threshold Voltage	VGE(th)	VGE=VCE,IC =0.5mA,Tvj=25	5.2 - 6.4	V
Collector-Emitter Cut-off Current	ICES	VCE=1200V,VGE=0V, Tvj=25	1.0	mA
Collector-Emitter Saturation Voltage	VCE(sat)	IC=10A,VGE=15V, Tvj=25	1.85 - 2.20	V
Collector-Emitter Saturation Voltage	VCE(sat)	IC=10A,VGE=15V, Tvj=125	2.15	V
Collector-Emitter Saturation Voltage	VCE(sat)	IC=10A,VGE=15V, Tvj=150	2.25	V
Gate Charge	QG		0.13	uC
Input Capacitance	Cies	VCE=25V, VGE=0V, f=1MHz, Tvj=25	1.0	nF
Reverse Transfer Capacitance	Cres		0.03	nF
Gate-Emitter leakage current	IGES	VCE=0V, VGE=20V, Tvj =25	400	nA
IGBT - Inverter Switching Characteristics (Tvj=25)
Turn-on Delay Time	td(on)	IC=10A, VCE=600V, VGE=15V, RG=51	87	ns
Rise Time	tr	IC=10A, VCE=600V, VGE=15V, RG=51	55	ns
Turn-off Delay Time	td(off)	IC=10A, VCE=600V, VGE=15V, RG=51	262	ns
Fall Time	tf	IC=10A, VCE=600V, VGE=15V, RG=51	145	ns
Energy Dissipation During Turn-on Time	Eon	IC=10A, VCE=600V, VGE=15V, RG=51	1.02	mJ
Energy Dissipation During Turn-off Time	Eoff	IC=10A, VCE=600V, VGE=15V, RG=51	0.52	mJ
IGBT - Inverter Switching Characteristics (Tvj=125)
Turn-on Delay Time	td(on)	IC=10A, VCE=600V, VGE=15V, RG=51	92	ns
Rise Time	tr	IC=10A, VCE=600V, VGE=15V, RG=51	58	ns
Turn-off Delay Time	td(off)	IC=10A, VCE=600V, VGE=15V, RG=51	283	ns
Fall Time	tf	IC=10A, VCE=600V, VGE=15V, RG=51	153	ns
Energy Dissipation During Turn-on Time	Eon	IC=10A, VCE=600V, VGE=15V, RG=51	1.38	mJ
Energy Dissipation During Turn-off Time	Eoff	IC=10A, VCE=600V, VGE=15V, RG=51	0.96	mJ
IGBT - Inverter Switching Characteristics (Tvj=150)
Turn-on Delay Time	td(on)	IC=10A, VCE=600V, VGE=15V, RG=51	98	ns
Rise Time	tr	IC=10A, VCE=600V, VGE=15V, RG=51	61	ns
Turn-off Delay Time	td(off)	IC=10A, VCE=600V, VGE=15V, RG=51	285	ns
Fall Time	tf	IC=10A, VCE=600V, VGE=15V, RG=51	155	ns
Energy Dissipation During Turn-on Time	Eon	IC=10A, VCE=600V, VGE=15V, RG=51	1.41	mJ
Energy Dissipation During Turn-off Time	Eoff	IC=10A, VCE=600V, VGE=15V, RG=51	1.02	mJ
SC Data	ISC	tp10us,VGE=15V,Tvj=150, VCC=900V,VCEM1200V	70	A
Diode - Inverter Absolute Maximum Ratings
Repetitive Peak Reverse Voltage	VRRM	Tvj=25	1200	V
Continuous DC Forward Current	IF		10	A
Repetitive Peak Forward Current	IFRM	tp=1ms	20	A
I2t-value	I2t	VR=0V,tp=10ms,Tvj=125	16.0	A2s
I2t-value	I2t	VR=0V,tp=10ms,Tvj=150	14.0	A2s
Diode - Inverter Characteristic Values
Forward Voltage	VF	IF=10A,Tvj=25	2.0	V
Forward Voltage	VF	IF=10A,Tvj=125	2.1	V
Forward Voltage	VF	IF=10A,Tvj=150	2.15	V
Recovered Charge	Qrr	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=25	1.0	uC
Peak Reverse Recovery Current	Irr	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=25	12.5	A
Reverse Recovery Energy	Erec	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=25	0.26	mJ
Recovered Charge	Qrr	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=125	1.70	uC
Peak Reverse Recovery Current	Irr	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=125	10.6	A
Reverse Recovery Energy	Erec	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=125	0.53	mJ
Recovered Charge	Qrr	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=150	1.86	uC
Peak Reverse Recovery Current	Irr	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=150	12.0	A
Reverse Recovery Energy	Erec	IF =10A, VR=600V, -diF/dt =600A/us, Tvj=150	0.61	mJ
IGBT - Brake-Chopper Absolute Maximum Ratings
Collector-Emitter Voltage	VCES	VGE=0V, IC =1mA, Tvj=25	1200	V
Continuous Collector Current	IC	TC=100,Tvjmax=175	10	A
Repetitive Peak Collector Current	ICRM	tp=1ms	20	A
Gate-Emitter Voltage	VGES	Tvj=25	20	V
Total Power Dissipation	Ptot	TC=25, Tvjmax=175	140	W
IGBT - Brake-Chopper Characteristic Values
Gate-emitter Threshold Voltage	VGE(th)	VGE=VCE, IC =0.5mA,Tvj=25	5.2 - 6.4	V
Collector-Emitter Cut-off Current	ICES	VCE=1200V,VGE=0V, Tvj=25	1.0	mA
Collector-Emitter Saturation Voltage	VCE(sat)	IC=10A,VGE=15V, Tvj=25	1.85 - 2.25	V
Collector-Emitter Saturation Voltage	VCE(sat)	IC=10A,VGE=15V, Tvj=125	2.15	V
Collector-Emitter Saturation Voltage	VCE(sat)	IC=10A,VGE=15V, Tvj=150	2.25	V
Gate Charge	QG		0.09	uC
Input Capacitance	Cies	VCE=25V, VGE=0V, f=1MHz, Tvj=25	1.0	nF
Reverse Transfer Capacitance	Cres		0.03	nF
Gate-Emitter leakage current	IGES	VCE=0V, VGE=20V,Tvj = 25	400	nA
IGBT - Brake-Chopper Switching Characteristics (Tvj=25)
Turn-on Delay Time	td(on)	IC=10A, VCE=600V, VGE=15V, RG=51	46	ns
Rise Time	tr	IC=10A, VCE=600V, VGE=15V, RG=51	45	ns
Turn-off Delay Time	td(off)	IC=10A, VCE=600V, VGE=15V, RG=51	182	ns
Fall Time	tf	IC=10A, VCE=600V, VGE=15V, RG=51	168	ns
Energy Dissipation During Turn-on Time	Eon	IC=10A, VCE=600V, VGE=15V, RG=51	0.92	mJ
Energy Dissipation During Turn-off Time	Eoff	IC=10A, VCE=600V, VGE=15V, RG=51	0.56	mJ
IGBT - Brake-Chopper Switching Characteristics (Tvj=125)
Turn-on Delay Time	td(on)	IC=10A, VCE=600V, VGE=15V, RG=51	46	ns
Rise Time	tr	IC=10A, VCE=600V, VGE=15V, RG=51	63	ns
Turn-off Delay Time	td(off)	IC=10A, VCE=600V, VGE=15V, RG=51	248	ns
Fall Time	tf	IC=10A, VCE=600V, VGE=15V, RG=51	220	ns
Energy Dissipation During Turn-on Time	Eon	IC=10A, VCE=600V, VGE=15V, RG=51	1.37	mJ
Energy Dissipation During Turn-off Time	Eoff	IC=10A, VCE=600V, VGE=15V, RG=51	0.81	mJ
IGBT - Brake-Chopper Switching Characteristics (Tvj=150)
Turn-on Delay Time	td(on)	IC=10A, VCE=600V, VGE=15V, RG=51	48	ns
Rise Time	tr	IC=10A, VCE=600V, VGE=15V, RG=51	68	ns
Turn-off Delay Time	td(off)	IC=10A, VCE=600V, VGE=15V, RG=51	252	ns
Fall Time	tf	IC=10A, VCE=600V, VGE=15V, RG=51	223	ns
Energy Dissipation During Turn-on Time	Eon	IC=10A, VCE=600V, VGE=15V, RG=51	1.60	mJ
Energy Dissipation During Turn-off Time	Eoff	IC=10A, VCE=600V, VGE=15V, RG=51	0.89	mJ
SC Data	ISC	tp10us,VGE=15V,Tvj=150, VCC=900V,VCEM1200V	70	A
Diode - Brake-Chopper Absolute Maximum Ratings
Repetitive Peak Reverse Voltage	VRRM	Tvj=25	1200	V
Continuous DC Forward Current	IF		10	A
Repetitive Peak Forward Current	IFRM	tp=1ms	20	A
I2t-value	I2t	VR=0V,tp=10ms,Tvj=125	16.0	A2s
I2t-value	I2t	VR=0V,tp=10ms,Tvj=150	14.0	A2s
Diode - Brake-Chopper Characteristic Values
Forward Voltage	VF	IF=10A,Tvj=25	2.0 - 2.5	V
Forward Voltage	VF	IF=10A,Tvj=125	2.1	V
Forward Voltage	VF	IF=10A,Tvj=150	2.15	V
Recovered Charge	Qrr	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=25	0.88	uC
Peak Reverse Recovery Current	Irr	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=25	12.5	A
Reverse Recovery Energy	Erec	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=25	0.25	mJ
Recovered Charge	Qrr	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=125	1.71	uC
Peak Reverse Recovery Current	Irr	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=125	10.4	A
Reverse Recovery Energy	Erec	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=125	0.50	mJ
Recovered Charge	Qrr	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=150	1.92	uC
Peak Reverse Recovery Current	Irr	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=150	10.4	A
Reverse Recovery Energy	Erec	IF =10A, VR=600V, -diF/dt =500A/us, Tvj=150	0.58	mJ
Diode - Rectifier Absolute Maximum Ratings
Repetitive Peak Reverse Voltage	VRRM	Tvj=25	1600	V
Average output Current	IF(AV)	50/60Hz, sine wave, TC=100	10	A
Maximum RMS Current at Rectifier Output	IRMSM	TC=100	20	A
Surge Forward Current	IFSM	VR=0V,tp=10ms,Tvj=45	150	A
I2t-value	I2t	VR=0V,tp=10ms,Tvj=45	110	A2s
Diode - Rectifier Characteristic Values
Diode Forward Voltage	VF	IF=10A,Tvj=150	1.0	V
Reverse Current	IR	Tvj=150,VR=1600V	1.0	mA
NTC-Thermistor Characteristic Values
Rated Resistance	R25		5.0	k
Deviation of R100	R/R	TC=100,R100=493.3	-5 - 5	%
Power Dissipation	P25		20.0	mW
B-value	B25/50	R2=R25exp[B25/50(1/T2-1/(298.15K ))]	3375	K
Module Characteristics
Isolation voltage	Visol	t=1min,f=50Hz, TC=25 C	2500	V
Maximum Junction Temperature	Tjmax		175
Operating Junction Temperature	Tvj op		-40 - 150
Storage Temperature	Tstg		-40 - 125
Stray-inductance-module	LSCE		30	nH
Comparative Tracking Index	CTI		>200
Module lead resistance, terminals-chip	RCC+EE	TC=25, per switch	5.00	m
Module lead resistance, terminals-chip	RAA+CC	TC=25, per switch	6.00	m
Thermal Resistance Junction-to Case	RJC	per IGBT-inverter	1.25 - 1.40	K/W
Thermal Resistance Junction-to Case	RJC	per Diode-inverter	1.75 - 1.90	K/W
Thermal Resistance Junction-to Case	RJC	per IGBT-brake-chopper	1.25 - 1.40	K/W
Thermal Resistance Junction-to Case	RJC	per Diode-chopper	1.75 - 1.90	K/W
Thermal Resistance Junction-to Case	RJC	per Diode-rectifier	2.05 - 2.10	K/W
Thermal Resistance Case-to Sink	RCS	per IGBT-inverter	1.15	K/W
Thermal Resistance Case-to Sink	RCS	per Diode-inverter	1.30	K/W
Thermal Resistance Case-to Sink	RCS	per IGBT-brake-chopper	1.15	K/W
Thermal Resistance Case-to Sink	RCS	per Diode-chopper	1.30	K/W
Thermal Resistance Case-to Sink	RCS	per Diode-rectifier	1.25	K/W
Thermal Resistance Case-to Sink	RCS	per Module	0.05	K/W
Mounting Force Per Clamp	F		30 - 80	N
Weight of Module	G		45	g

2411220012_YANGJIE-MG10P12P3_C20601997.pdf

Company Details

Bronze Gleitlager

Bronze Sleeve Bushings

and

Graphite Plugged Bushings

from Quality China Factory



Business Type:

Manufacturer,Distributor/Wholesaler,Agent,Importer 


Year Established:

2009 


Employee Number:

300~500 


Ecer Certification：

Verified Supplier 

.gtr-container-a1b2c3d4 { font-family: Verdana, Helvetica, "Times New Roman", Arial, sans-serif; color: #333; padding: 20px; line-height: 1.6; font-size: 14px; box-sizing: border-box; } .gtr-container-a1b2c3d4 .gtr-heading { font-size: 18px; font-weight: bold; c... .gtr-container-a1b2c3d4 { font-family: Verdana, Helvetica, "Times New Roman", Arial, sans-serif; color: #333; padding: 20px; line-height: 1.6; font-size: 14px; box-sizing: border-box; } .gtr-container-a1b2c3d4 .gtr-heading { font-size: 18px; font-weight: bold; c...

+ Read More

Reach Us
Hefei Purple Horn E-Commerce Co., Ltd.
Room 1306B, Building A, Xindi Center, Qimen Road, Hefei City, Anhui Province
https://www.semiconductoric.com/

Chat online Now

Leave a Message, we will call you back quickly!