Transfer Molded IGBT Module for Electric Vehicle Propulsion

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Transfer Molded IGBT Module for Electric Vehicle Propulsion By Eric R. Motto Senior Member John F. Donlon Senior Member Powerex Incorporated 173 Pavilion Lane Youngwood, PA 15697 USA 1 Presentation Outline: (1) T-PM module package Transfer Molded Package TCIL (Thermally Conductive Insulating Layer) DLB (Direct Lead Bonding) (2) T-PM module features Current Sensing Temperature Sensing (3) T-PM reliability Thermal cycling reliability Power cycling reliability Control board P K A G S E K A G S E Ts Cs Ts Cs P O N (4) T-PM Inverter system design Line-Up System layout Parallel operation T-PM Cooling plate 2 1

Introducing the T PM (Transfer Molded) Power Module) Main Features: Dual Module Half bridge configuration Compact, Rugged, Transfer molded package High thermal conductivity for efficient heat transfer Low loss CSTBT chip technology Known Good Building block for high reliability inverters 3 Transfer Molded Package of T PM Top View Bottom View The transfer molded package is mechanically robust and low cost. The package design is based on technology developed for White Goods consumer applications starting in 1997. Transfer molded packaging in the form of the T-PM has been used in inverters for electric and hybrid electric vehicles since 2003. Today there are more than one million T-PM modules on the road. 4 2

Cross Section of T-PM with DLB Direct Lead Bonding Chips are bonded to a heat spreader/lead frame using lead (Pb) free solder. A Thermally Conductive electrically Insulating Layer (TCIL) is attached to the bottom surface of the heat spreader. The heat spreader provides reduced thermal impedance Direct Lead Bonding (DLB) provides reduced inductance and resistance 5 Transient Thermal Impedance of T-PM By adopting a built in heat spreader the transient thermal impedance (Zth(j-c)) of the T-PM is reduced to 65% of a conventional module in the t=0.1s range. The Zth reduction reduces Tj ripple which helps to increase the power cycling life of the device. 6 3

DLB (Direct Lead Bond) compared to conventional wire bond structure The top surface (emitter/cathode) connection is made by directly soldering a copper tab to the chip s surface. Increased bonding area of DLB provides reduced emitter contact resistance. DLB improves current uniformity in the semiconductor chips. Hot spots found at the bonding points in a conventional design are eliminated by DLB. 7 DLB Package inductance compared to conventional wire bond structure DLB module internal inductance reduced to 57% of wire bonded module 8 4

DLB package resistance compared to conventional wire bond structure DLB module internal lead resistance is reduced to 50% of a wire bonded module 9 T-PM Schematic Diagram Main Features: Dual Module Half Bridge Configuration Advanced low loss CSTBT chips On-Chip temperature sensor Emitter current mirror for over current protection U Gate and Sensor Pins N P 10 5

IGBT Chip with Current and Temperature Sensors Main Features: Temperature sensing is accomplished by measuring the Vf of a string of diodes fabricated on the surface of the chip Tj=175C maximum rating Low loss CSTBT chip technology Current mirror provides a low level output proportional to the main emitter current. Current Sensor Gate Temperature Sensor Diodes Cathode Anode Emitter On-Chip sensing features allow development of more robust protection 11 Typical Over Temperature Detection Circuit Accurate On-Chip temperature sensing is accomplished by measuring the Vf of a string of diodes fabricated on the chip s surface. This type of temperature sensing is faster responding and more accurate than conventional techniques that use NTC sensors mounted somewhere near the chip. 12 6

Typical Over Current Detection Circuit Current mirror emitter is provided for short circuit protection. The output of the current mirror depends on temperature and the value of the burden resistor. With Rs=100ohm the output is approximately 1/40,000 th of the main current at Tj=125C Short circuit current can be interrupted before dangerous desaturation occurs. No need for high voltage components (desaturation detection diode) in the gate drive circuit 13 Over Current Protection Waveform Short circuit current is interrupted before desaturation occurs. Fault energy is reduced by more than two orders of magnitude. Reduced stress on the IGBT minimizes the risk of failure 14 7

T-PM Gate drive and protection implemented using a low voltage ASIC Under Development Short circuit, over temperature and under voltage lock-out included on ASIC. Off-state gate current sink (a.k.a. Miller Clamp) eliminates need for negative gate bias. Soft shut-down provided for short circuit protection. 15 Result of thermal cycling test Rth(j-c) does not deteriorate 16 8

Chip surface thermal gradient reduction with DLB construction 17 Power Cycling Reliability of DLB Construction EOL Criterion: *1 Solder joint area reduction more than 50% (Still no deterioration in characteristics). *2 Bond wire lifted (open circuit) 18 9

T-PM Assembly Example Compact transfer molded package allows development of compact inverters. Known good building block can be used in single, three phase or fully regenerative configurations. T-PM can be paralleled for higher current applications. 19 Liquid cooled power assembly example Control board T-PM Cooling plate 20 10

Liquid cooled intelligent power assembly 21 T-PM Module Line-Up 300A 600A 600V CT300DJH060 CT600DJH060 1200V CT300DJH120 22 All modules are in the same 56mm x 64mm x 7.5mm package 11

Parallel Connection of T-PM Module T-PM modules can be paralleled for higher current applications. 23 Conclusions: (1) T-PM module package advantages Low cost, Rugged, Transfer molded package Excellent thermal performance using TCIL with integrated heat spreader. Low inductance and resistance using DLB (2) T-PM module features Current mirror for effective over current protection Fast and accurate On-Chip temperature sensing Low loss full gate CSTBT chips Tj(max)=175C (3) T-PM reliability Excellent thermal cycling reliability by transfer molded construction Increased power cycling durability using DLB (4) T-PM Inverter system design Flexible known good building block concept Allows compact, light weight inverter design Parallel operation possible 24 12

Questions? 25 13

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