Makan Chen, Wang Hao, Hong Peng, Semiconductor, 2014.11.10 ...
Transcript of Makan Chen, Wang Hao, Hong Peng, Semiconductor, 2014.11.10 ...
© ABB GroupDecember 9, 2014 | Slide 1
High power semiconductors for T&Dand industry applicationStakPak & IGCT introduction
Makan Chen, Wang Hao, Hong Peng, Semiconductor, 2014.11.10
© ABB
Content
§ StakPak
§ Design – SPT+ & press-packtechnology
§ StakPak Characteristic
§ StakPak Design Benefit
§ Application and Reference
§ IGCT
§ Product Family
§ New Developments
§ Application aspect
§ Application and reference
§ New 6 inch HVDC Thyristor
§ Summary
9 December, 2014 | Slide 2
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SPT+ technology:
§ low-loss, rugged SPT+, large SOA
§ High controlability
§ Smooth switching SPT+ chip-set for goodEMC
Press-pack module design
§ High tolerance to uneven mounting pressure
§ Explosion resistant package
§ Direct bonding to Mo-basedplateà low Rth
§ SCFM Fail-safeàfor series connection
StakPak 5SNA 2000K451300 –designVCE = 4500 V, IC = 2000 A
9 December, 2014 | Slide 3
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StakPak press-packStakPaksub-module
Sub-module Cross Section
IGBT Chip
Semiconductor wafer
StakPakTM –ABB proprietary IGBT module technology
9 December, 2014 | Slide 4
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IGBT StakPak –modular design
=
n standard submodules+
Glass fibre reinforced frame
StakPak Stack
Possible current ratings
700A – 2000A (2800A)
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Key featureShort circuit failure mode
9 December, 2014 | Slide 6
§ Immediate Stable short-circuit in case of a chipfailure
§ The Press-Pin and theSilicon form a conductingalloy
§ ABB offers SCFM life-time ratings for usersrequiring this feature andwho are able to specifythe load currentwaveforms and profiles
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StakPak innovative clampingControlled and uniform clamping force
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§ Top: Classic multi-chip Presspackprone to stress concentration
§ Bottom: StakPak spring contactensure defined uniform pressure
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StakPak – explosion proof and efficient cooling
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1. High strength and high temperature resistant Moly-alloy Baseplate and Emitter cover
2. Cu Emitter cover plate
3. Glass fibre reinforced frame housing
4. Fails into short circuit in fault
5. Capable to sustain up to 600 kA (0.2ms)àI2t=3.3x107 A2s
StakPak module-control terminalHeat sink
current flow RthParameter Value vs "HiPak"Junction to caseRth(j-c) DIODE 0.0091 K/W 50%Rth(j-c)IGBT 0.0048 K/W 50%case to heat sinkRth(c-h)DIODE 0.0023 K/W 12%Rth(c-h) IGBT 0.0011 K/W 12%
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StakPak – gate drive
9 December, 2014 | Slide 9
§ Standard gate IGBT driver can be used
§ RG-on = 1.8 Ohm, RG-off = 8.2 Ohm, CGE = 330 nF
§ Active clamp available
§ Standard gate driver interface
§ Gate driver with small jitter needed for seriesconnection
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RBSOA –waveform
9 December, 2014 | Slide 10
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StakPak – short circuit capability
9 December, 2014 | Slide 11
VDC = 3400V, Tj = 125°C, RGon/off=1.8 / 8.2 W, CGE = 330 nF, Ls = 200 nH
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Phase current simulation (2 level) (300Hz, RMS)2000K451300 (4500V / 2000A)
9 December, 2014 | Slide 12
Tvj = 115°C, Tc = 80°C, T-heat = 70°CTotal losses dominated by IGBT and conduction losses
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Phase current simulation (2 level) (300Hz, RMS)2000K451300 (4500V / 2000A)
9 December, 2014 | Slide 13
0
500
1000
1500
2000
2500
100 1000 10000
Iout
,rm
s[A
]
fsw [Hz]
5SNA 2000K4503005SNA 2000K4503005SNA 1200G450300 SPT+
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IV Characteristic of StakPak10 kA reached w/o desaturation -5SNA 2000K451300
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Turning off behavior of StakPakSafe 10 kA turn-off with snubber -5SNA 2000K451300
9 December, 2014 | Slide 15
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StakPak – application benefits -1Ideal IGBT for Grid application
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StakPak module-control terminalHeat sink
current flow1. SPT+ smooth switching with controllability
2. Lower losses for reduced cooling and conversionlosses
3. Large SOA ensures system tolerance
4. SCFM for fail-safe uninterrupted operation
5. Explosion safeà no need for containment
6. Efficient cooling offering high rated power
7. Uniform chip pressureà easy stack clampingsystem
8. Robust module designà long term reliability
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StakPak – application benefits -2Ideal IGBT for Grid application
9 December, 2014 | Slide 17
StakPak module-control terminalHeat sink
current flow1. Ability to turn off 10 kA (with Snubber)à suited for
DC breaker application
2. Presspack designàideal for HV series connection
with redundancy
3. Potential high surge current capability
4. High current ratingà >1 GW without parallel
connection
5. Modular design facilitates design platform
6. Tailored for T&D with good operation record
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StakPakProprietary press-pack design for series connection
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1. HVDC (series connection, redundant)
2. FACTs (StatCom) (compact, highpower)
3. DC-Breaker (series connection,redundant)
4. Multi-level inverters (6+ module mechin series reliable, compact)
5. Frequency converters (15, 25 kV AC,traction)
6. Pulse Power (series connection)
7. … (high voltage, high current, highpower)
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ABB semiconductors enable reliable HVDC operation
2012§ 48 HVDC Classic projects (starting 1970)§ Over 100 projects (Classic + Light + up-grades)§ Incl. 10 HVDC Light projects (IGBT StakPak)
Confidential
9 December, 2014 | Slide 19
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Project referencesHVDC light technology
9 December, 2014 | Slide 20
Murraylink2002, 220 MW
Directlink2000, 3X60 MW
Tjæreborg2000,7MW
Estlink2006, 350 MW
Troll, 20042X40 MW
Eagle Pass2000, 36 MW
Cross Sound2002, 330MW
Valhall, 200975 MW
Caprivi link2010, 300 MW
Hällsjön1997, 3 MW
East WestInterconnector,2012 , 500 MW
BorWin12009, 400 MW
NordBalt2015, 700 MW
Gotland1999, 50 MW
Skagerrak 42014, 700MW
DolWin22015, 900 MW
DolWin12013, 800 MW
Awarded 1200 MW HVDC Light Project by Scottish Hydro Electric
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Off-shore Windpark DolWin in the North See
165 km / ±320 kV / 800 MW
4.5 kV/2000 A
ABB IGBT StakPak operatingin more than 10 HVDC Lightprojects worldwide
9 December, 2014 | Slide 21
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IGCTIntegration of gate unit and power semiconductor
§ IGCT operation requires low inductive coupling of gate unitand power semiconductor
§ Integration of
§ power semiconductor
§ Low inductive device package
§ Gate unit
Power semiconductorIn low inductive package
Gate unit
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IGCTSemiconductor package
§ Press pack package
§ Double side cooling
§ Low thermal resistivity
§ Hermetic package
§ High reliability
§ Low inductive coupling togate unit
Very few parts
9 December, 2014 | Slide 23
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IGCTInterfaces
Very few parts
visible LEDindicatorsl l l l
Status Feedback Command Signaloptical fibre connectors
power supplyconnection
GCT hochey puckhousing
9 December, 2014 | Slide 24
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IGCT turn-off processCommutation of phase current to gate
t
tThyristor
t1
Commutation time: t1 = Iload×Ls/VGU
Ls IloadIGIK
np
p
n
Iload
VGU
Iload VAK
IGIK
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Standard IGCT family
§ 49 to 91 mm wafers (…150 mm)
§ 520 to 5000 A (…8000 A)
§ 4500 V to 6500 V (…10 kA)
§ Free-floating wafer technology for high power-cycling capability
§ Asymmetric and reverse-conducting devices
9 December, 2014 | Slide 26
Confidential
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Product range -IGCT
9 December, 2014 | Slide 27
Confidential
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HPT™ IGCT product platform
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§ 4.5 kV; Ideal for 3- and 5-level Voltage Source Inverters @ 3.3 kVRMS and6.0/6.6 kVRMS
§ RC-IGCT in 51, 68 and 91 mm size
§ Asymmetric device in 91 mm size
§ 5.5 kV; Ideal for 3- and 5-level VSI @ 4.0/4.16 kVRMS and 6.9/7.2 kVRMS
§ RC-IGCT: in 51, 68 and 91 mm size
§ Asymmetric device in 91 mm size
§ 6.5 kV; Ideal for 2-level Traction & Trackside Converters, and also DCbreakers§ Asymmetric device in 91 mm size
§ 10 kV; Ideal for 3-level Voltage Source MVA Inverters @ 6.0-7.2 kVRMS
§ Asymmetric device in 91 mm size
§ Sample available
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Freewheeling, neutral point and clamp diode
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§ ABB offers matching freewheeling, neutral point (NPC)and clamp diodes.
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Fast recovery diodesFor antiparallel connection with high di/dt
9 December, 2014 | Slide 30
§ With 5SDF 11H4505, 20L4520 and 28L4520 released wecan cover all applications using the new HPT-IGCTs
§ Capable of di/dt upto 5000 A/us
§ Allow for higher di/dt IGCT turn-on and reduced inductance
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10kV IGCT – static characteristics
9 December, 2014 | Slide 31
standard gate-unit
new 35mm HV housing
< 20mA at 11kV
Forward blocking, TJ= 125°C
2
3
4
5
6
7
8
0 1 2 3 4 5Anode current IT (kA)
On-s
tate
volta
geVT
(V)
On-state characteristics, TJ =125°C
Confidential
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6’’ RC-IGCT to turn off 8000 AMost powerful semiconductor
9 December, 2014 | Slide 32
§ First prototypes of 150 mm (6”) RC-IGCT (RC = reverseconducting)
§ Product development pending application§ Voltage: 4.5 & 6.5kV§ Target spec available: VDRM=4500V, TGQM=8000A
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RB (Reverse Blocking)-IGCT for CSI
9 December, 2014 | Slide 33
§ In development 2.5, 6.5 kV and 8.5 kV devices.
§ The first engineering samples deliveredfor selectedcustomers
§ Applications:
§ MVD Current Source Inverters (CSI)
§ Static breakers
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OutlookABB IGCT development using HPT+
Asymmetric IGCT91 mm
4.5, 5.5, 6.5,10kVlow VT versionlow EOFF version
RC-IGCT91 mm
RC-IGCT51 to 150 mm
Improved diodesoftness by FCE
Large area GCTs
RB-IGCT38-68 mm
2.5, 6.5 & 8.5kV
9 December, 2014 | Slide 34
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3 level voltage source inverters
§ AC-output voltage modulatedwith PWM, DTC etc.3 discrete voltage levels(+DC, 0, -DC) >less harmonics
§ Fundamental switchingfrequency 200 .. 1’000 Hz
§ Examples
§ Medium voltage drives (in most caseswith IGCTs) 4..6 kV, 1..11 MVA
§ Static frequency convertersRailway supply 50 to 16.7 Hzconversionup to 400 MW
§ STATCOM / Windpower etc.
§ Traction (e.g. 3 kVdc) up to 6 MW
9 December, 2014 | Slide 35
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ABB’s proven converter technology based on IGCT
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2nd generation low loss HVDC thyristor–development update on YST140
9 December, 2014 | Slide 37
Design Improvement and Product Features
1. Optimized Si thickness and resistivity for lowerOn-state voltage, VT
2. Optimized Cathode and AG (Amplifying Gate)shorting pattern for higher dV/dt and lower tq
3. New SF(Snow Flake) gate structure for maximumSi active area
4. Improved packaging for lower thermal resistance,Rth_JC
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Relevant electrical parameters of PCT for UHVDCRecord low on-state voltage VT
9 December, 2014 | Slide 38
- ITmax = 4.2 → 5 kA @ VRRM = 8.5 kV- ITmax > 6 kA @ VRRM = 6.7 - 7.2 kVà 6250A, VT_max=1.7V, Qrr: 5100-5700uC, tq: 550 us PCIM 2014
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Major characteristics with Gen.2 YST140P85
参数 符号 单位 值 备注
1 技术曲线Qrr - VT G1à G2 -200mV
2 可重复峰值电压(关断态, 反向) VDRM, VRRM V 8500 =
3 漏电流(关断态, 反向) 8500V IDRM, IRRM mA 200 =
4 雪崩电压 VRSMS V 9100 "="
5 反向恢复电荷 QRR μAs 6300 - 7200 =
6 换向时间 tq μs 600 -200us
7 通态压降(最大值/平均值) IT = 5000A VTM, VTMean V 1.87 /1.80 -200 mV
8 触发电压/ 电流 Tvj=常温VGTIGT
V/mA 2.6/400 =
9 通态浪涌电流(不可重复) ITSM kA 55-63 +
10 不可重复通态电流di/dt di/dt A/μs 3200 =
11 关断电压的临界上升率 dv/dt V/μs 4000 =
9 December, 2014 | Slide 39
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StakPak –conclusionDC grid made easy
9 December, 2014 | Slide 40
StakPak module-control terminalHeat sink
current flow
1. ABB StakPak is the most powerful IGBT moduleavailable
3. Safe short-circuit failure mode offering fail safe
4. Flexible current rating with surge current options
5. Uniform chip pressure via individual spring
6. Enable easy and controlled clamping system forlong stack
7. Efficient cooling offering high rated power
8. Tailor-made for T&D applications (à safe,reliable, redundancy, uninterrupted)
9. Over 10 HVDC projects in safe operation
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IGCT summary
9 December, 2014 | Slide 41
Product and technology
§ Integrated gate unit for controllability
§ Low on-state losses for reduced cooling
§ Very high power density and reliability
§ Double sided cooling (press-pack design)
§ Fail into stable shorted state / explosion proof
§ High load cycling capability
§ In pipeline: 6” for 8000A, 10 kV, RB-IGCT,§ Application
§ High power (V & I) àless components neededà low FIT rate
§ Less requirement for series and parallel connection, but enabled
§ Designed in at key OEM with sound field record
§ Ideal for high power conversion for industrial, renewable and T&D applications
© ABB9 December, 2014 | Slide 42