IPM L-series Application Note Dec. 20
10Dec. 20Mitsubishi IPM-series Application NoteReliability 7.Reliability 7-1. Introduction It has only been somewhat over 30 years since semiconduc
11Dec. 20Mitsubishi IPM-series Application NoteReliability 7-2-2. Power Module Failure Reason After a piece of equipment has been assembled and a
12Dec. 20Mitsubishi IPM-series Application Note 7-2-3. Thermal Fatigue of Power Module 7-2-3-1 Operating Temperature Pattern The operating temper
13Dec. 20Mitsubishi IPM-series Application Note7-2-3-2. Power Cycle Failure Mechanism Fig.7.4 shows the typical construction of power module. When j
14Dec. 20Mitsubishi IPM-series Application Note 7-3. Mitsubishi's Quality-Assurance Program One of the basic goals of Mitsubishi Electric is t
15Dec. 20Mitsubishi IPM-series Application Note Fig.7.7 Flow Chart of Quality Assurance Program Reliability
16Dec. 20Mitsubishi IPM-series Application Note 7-4. Reliability Testing 7-4-1 Reliability Testing Procedures High reliability standards are assure
17Dec. 20Mitsubishi IPM-series Application Note 7-5. Failure Analysis Failure analysis is one of the sources of information used in maintaining, an
18Dec. 20Mitsubishi IPM-series Application Note 8. Installation of power Module 8-1 Installing Capacitor During switching, voltage is induced in p
19Dec. 20Mitsubishi IPM-series Application Note 8-3 Thermal Impedance Considerations & Chip Layout The junction to case thermal resistance Rth(j
2Dec. 20Mitsubishi IPM-series Application NoteIndexIndex 1. IPM L-series Features 2. Product Line-up 3. Term Explanation 4. Numbering System 5. S
20Dec. 20Mitsubishi IPM-series Application Note Chip layout (Small package) 600V type UP VP WP UN VN WN Br 㶎RLA/RLB Type Name IGBT FWDi IGB
21Dec. 20Mitsubishi IPM-series Application Note Chip layout (Medium package) 600V type㩷UP VP WP UN VN WN Br 㶎RLA Type Name IGBT FWDi IGBT F
22Dec. 20Mitsubishi IPM-series Application Note 8-4 Coating Method of Thermal Grease (Example) The coating method of thermal grease is introduced in
23Dec. 20Mitsubishi IPM-series Application Note 9. Using IPM 9-1 Applications of IPML-series to Motor drive (ex. 7in1 PM**RLA/RLB060, PM**R
24Dec. 20Mitsubishi IPM-series Application Note 9-2 Interface of control side of IPM IPM (Intelligent Power Modules) is easy to operate. The integr
25Dec. 20Mitsubishi IPM-series Application Note The inside of the control input terminal is connected to the comparator and is with high i
26Dec. 20Mitsubishi IPM-series Application Note (4) Fo terminal of IPM Fo is the output which shows the abnormal condition of IPM. The extraordin
27Dec. 20Mitsubishi IPM-series Application Note㩷 Low speed photo coupler Low speed photo coupler is connected Fo terminal of IPM. When choosing
28Dec. 20Mitsubishi IPM-series Application Note (5) Notice of using photo coupler The photo coupler can isolate the primary side and secondary s
29Dec. 20Mitsubishi IPM-series Application Note (6) Connecter for control terminal of IPM We use the connector from “HIROSE ELECTRIC CO., LTD” in
3Dec. 20Mitsubishi IPM-series Application NoteIPM L-series Feature, Product Line-up1.IPM L-series Feature In recent years, motor control devices su
30Dec. 2012Mitsubishi IPM-series Application Note 9-3 Control Power supply of IPM (1) The control power supply The voltage range includ
31Dec. 2012Mitsubishi IPM-series Application Note (2) The circuit current of control power supply of IPM The circuit current of control power supply
32Dec. 2012Mitsubishi IPM-series Application Note The circuit current of the IPM control power supply at other frequency The cir
33Dec. 2012Mitsubishi IPM-series Application Note 9-4 Fault Signal of IPM IPM (Intelligent Power Modules) have sophisticated built-in protection circ
34Dec. 2012Mitsubishi IPM-series Application Note Short Circuit (SC) If a load short circuit occurs or the system controller malfunctions causing a sh
35Dec. 2012Mitsubishi IPM-series Application Note The operating-sequence of the SC protection a1 : The normal operation=IGBT ON a2 : Short current
36Dec. 2012Mitsubishi IPM-series Application Note 9-5 Other notice of using IPM (1) The treatment of the terminal not to use Type CLA,CLB have B ter
37Dec. 2012Mitsubishi IPM-series Application Note㧵㧼㧹 㧵㧼㧹 10. Power Loss and Junction Temperature Junction temperature can be used as an indication of
38Dec. 2012Mitsubishi IPM-series Application Note (3) Average Power Loss The average power loss per pulse is 1w11tEP = (W) Fig.10.4 is approximatio
39Dec. 2012Mitsubishi IPM-series Application Note (1) tw1<<1ms In case of short on interval or low duty as in Fig.10.5, Junction temperatures ri
4Dec. 20Mitsubishi IPM-series Application Note Package IPM L-series Small-package 㩷㪪㪺㫉㪼㫎㩷㫋㫐㫇㪼㩷㫇㪸㪺㫂㪸㪾㪼㩷 㪧㫀㫅㩷㫋㫐㫇㪼㩷㫇㪸㪺㫂㪸㪾㪼㩷 IPM L-series
40Dec. 2012Mitsubishi IPM-series Application Note (3) tw2>1s In a similar way to (2), temperature change of heatsink should be taken into considera
41Dec. 2012Mitsubishi IPM-series Application Note11. Average Power Loss Simplified Calculation (1) VVVF Inverter عApplicability Range It is applicab
42Dec. 2012Mitsubishi IPM-series Application Note Because reverse recovery of free-wheeling diodes occurs in half cycle of the output current, the dyn
43Dec. 2012Mitsubishi IPM-series Application Noteع12. Notice for safe Designs and when Using This Specification 㩷Keep safety first in your circuit de
5Dec. 20Mitsubishi IPM-series Application Note 3. Term Explanation General 1 Symbol Definition IGBT Insulated Gate Bipolar Transistor FWDi Fre
6Dec. 20Mitsubishi IPM-series Application Note 4. Numbering System Label) 㪧㪤䋵䋰䌒䌌䌁䋰䋶䋰㪜㪇㪐㪘㪘㪊㪤㪠㪫㪪㪬㪙㪠㪪㪟㪠 㪜㪣㪜㪚㪫 㪩㪠㪚 㪡㪘㪧㪘㪥 㪫㫐㫇㪼㩷㫅㪸㫄㪼 㪣㫆㫋㪅㪥㫆㪅 㩷 Type
7Dec. 20Mitsubishi IPM-series Application Note䌐䌍㩷 㩷 䋵䋰㩷 㩷 䌒 㩷 䌌䌁㩷 㩷 䋰䋶䋰 䋭 䋳䋰䋰 㩷䌅㩷㩷䋰㩷㩷䋹 㩷䌁䌁䋳㩷㩷㪞 㩷 5. Structure ex.) Small package Screw type
8Dec. 20Mitsubishi IPM-series Application NoteCorrect and Safety Use of Power Module 6. Correct and Safety Use of Power Module Unsuitable operation
9Dec. 20Mitsubishi IPM-series Application NoteCorrect and Safety Use of Power Module Cautions Mounting When mounting a module on a heat sink, a de
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