Microcontrol ler
Motor Control Appl icat ion Kit
Board User‘s Manual
Revision 2.0, 2016-12-13
KIT_XMC750WATT_AK_V1XMC 750 Watt Motor Control Application Kit3-Phase drives evaluation with galvanic isolation
Edition 2016-12-13
Published byInfineon Technologies AG81726 Munich, Germany
© 2016 Infineon Technologies AGAll Rights Reserved.
Legal Disclaimer
The information given in this document shall in no event be regarded as a guarantee of conditions orcharacteristics. With respect to any examples or hints given herein, any typical values stated herein and/or anyinformation regarding the application of the device, Infineon Technologies hereby disclaims any and allwarranties and liabilities of any kind, including without limitation, warranties of non-infringement of intellectualproperty rights of any third party.
Information
For further information on technology, delivery terms and conditions and prices, please contact the nearestInfineon Technologies Office (www.infineon.com).
Warnings
Due to technical requirements, components may contain dangerous substances. For information on the types inquestion, please contact the nearest Infineon Technologies Office.
Infineon Technologies components may be used in life-support devices or systems only with the express writtenapproval of Infineon Technologies, if a failure of such components can reasonably be expected to cause thefailure of that life-support device or system or to affect the safety or effectiveness of that device or system. Lifesupport devices or systems are intended to be implanted in the human body or to support and/or maintain andsustain and/or protect human life. If they fail, it is reasonable to assume that the health of the user or otherpersons may be endangered.
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Template: IFX_Template_2011-02-24.dot
Revision History
Page or Item Subjects (major changes since previous revision)
Revision 1.0,
2014-01-30
Initial release
Revision 2.0,2016-12-13
Change IC103 part number and C120 value
Trademarks of Infineon Technologies AG
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Other Trademarks
Advance Design System™ (ADS) of Agilent Technologies, AMBA™, ARM™, MULTI-ICE™, KEIL™,PRIMECELL™, REALVIEW™, THUMB™, µVision™ of ARM Limited, UK. AUTOSAR™ is licensed byAUTOSAR development partnership. Bluetooth™ of Bluetooth SIG Inc. CAT-iq™ of DECT Forum.COLOSSUS™, FirstGPS™ of Trimble Navigation Ltd. EMV™ of EMVCo, LLC (Visa Holdings Inc.). EPCOS™of Epcos AG. FLEXGO™ of Microsoft Corporation. FlexRay™ is licensed by FlexRay Consortium.HYPERTERMINAL™ of Hilgraeve Incorporated. IEC™ of Commission Electrotechnique Internationale. IrDA™of Infrared Data Association Corporation. ISO™ of INTERNATIONAL ORGANIZATION FORSTANDARDIZATION. MATLAB™ of MathWorks, Inc. MAXIM™ of Maxim Integrated Products, Inc.MICROTEC™, NUCLEUS™ of Mentor Graphics Corporation. Mifare™ of NXP. MIPI™ of MIPI Alliance, Inc.MIPS™ of MIPS Technologies, Inc., USA. muRata™ of MURATA MANUFACTURING CO., MICROWAVEOFFICE™ (MWO) of Applied Wave Research Inc., OmniVision™ of OmniVision Technologies, Inc.Openwave™ Openwave Systems Inc. RED HAT™ Red Hat, Inc. RFMD™ RF Micro Devices, Inc. SIRIUS™ ofSirius Satellite Radio Inc. SOLARIS™ of Sun Microsystems, Inc. SPANSION™ of Spansion LLC Ltd.Symbian™ of Symbian Software Limited. TAIYO YUDEN™ of Taiyo Yuden Co. TEAKLITE™ of CEVA, Inc.TEKTRONIX™ of Tektronix Inc. TOKO™ of TOKO KABUSHIKI KAISHA TA. UNIX™ of X/Open CompanyLimited. VERILOG™, PALLADIUM™ of Cadence Design Systems, Inc. VLYNQ™ of Texas InstrumentsIncorporated. VXWORKS™, WIND RIVER™ of WIND RIVER SYSTEMS, INC. ZETEX™ of Diodes ZetexLimited.
Last Trademarks Update 2011-02-24
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Table of Contents
Board User's Manual 4 Revision 2.0, 2016-12-13
Table of Contents
1 Overview .............................................................................................................................................71.1 Key Features ........................................................................................................................................71.2 Block Diagram ......................................................................................................................................8
2 Hardware Description ........................................................................................................................92.1 Power Supply .....................................................................................................................................102.1.1 EMC Line Filter...................................................................................................................................102.1.2 PFC Circuitry ......................................................................................................................................112.1.3 PFC Control IC, Current Sense and Over Current Protection ...........................................................112.1.4 Control Power Supply (VCC_15V and VDD_5V)...............................................................................132.2 3 Phase Inverter .................................................................................................................................142.3 Drive Card Connector ........................................................................................................................172.4 Auxiliary Power Board Connector ......................................................................................................18
3 Production Data................................................................................................................................203.1 Schematics.........................................................................................................................................203.2 Component Placement.......................................................................................................................243.3 Board Dimensions and Mounting Hole Positions...............................................................................253.4 Winding Rules for Transformer TR101 ..............................................................................................263.5 Bill of Material (BOM) .........................................................................................................................27
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
List of Figures
Board User's Manual 5 Revision 2.0, 2016-12-13
List of FiguresFigure 1 Block Diagram of KIT_XMC750WATT_AK_V1....................................................................................8Figure 2 3 Phase Power Inverter 750W V1.2.....................................................................................................9Figure 3 EMC Line Filter...................................................................................................................................10Figure 4 Control Circuitry of Relay K101..........................................................................................................10Figure 5 PFC Circuitry ......................................................................................................................................11Figure 6 PFC Selector JP101...........................................................................................................................11Figure 7 PFC Control IC ICE3PCS02 ..............................................................................................................11Figure 8 PFC Current Sense and Over Current Protection..............................................................................12Figure 9 PFC Peak Current versus R313.........................................................................................................12Figure 10 Control Power Supply (VCC_15V and VDD_5V)...............................................................................13Figure 11 Restart of Control Power Supply via Testpads ..................................................................................13Figure 12 Power Inverter – IGBT .......................................................................................................................14Figure 13 Power Inverter – Gate Driver .............................................................................................................14Figure 14 Phase Current Sensing and Reference Voltage Buffer (e.g. Phase W) ............................................15Figure 15 DC-Link Current Sensing ...................................................................................................................15Figure 16 Inverter Timing Diagram.....................................................................................................................16Figure 17 Output Voltage (BEMF) Signal Dividers and Inverting Gate Driver Enable Circuitry.........................16Figure 18 Temperature Sensor Circuitry and Thermistor Parameter.................................................................17Figure 19 Drive Card Connector ........................................................................................................................17Figure 20 Auxiliary Power Board Connector ......................................................................................................18Figure 21 Analog Signal Selector .......................................................................................................................19Figure 22 Schematics: Title Page (V1.2 – 2016/50) ..........................................................................................20Figure 23 Line Filter, PFC, DC-Link 400V, Power Supply 15V/5V.....................................................................21Figure 24 Gate Driver, Power Bridge (IGBT), Phase Current Shunt Amplifier ..................................................22Figure 25 Single Shunt and PFC Amplifier, PFC Protection, Drive Card and Auxiliary Power Connector ........23Figure 26 Component Placement.......................................................................................................................24Figure 27 Board Dimensions and Mounting Hole Positions...............................................................................25Figure 28 Winding Rules for Transformer TR101 ..............................................................................................26
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
List of Figures
Board User's Manual 6 Revision 2.0, 2016-12-13
List of TablesTable 1 Maximum Ratings.................................................................................................................................9Table 2 Typical Inverter Timing Parameters ...................................................................................................16Table 3 Drive Card Connector ........................................................................................................................17Table 4 Auxiliary Power Board Connector ......................................................................................................19Table 5 BOM of KIT_XMC750WATT_AK_V1 Board ......................................................................................27
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Overview
Board User's Manual 7 Revision 2.0, 2016-12-13
IntroductionThis document describes the features and hardware details of the “3 Phase Power Inverter 750W V1.2” which isdesigned to work with Infineon’s DriveCards. DriveCards are microcontroller boards with isolated debuginterface best suited for motor control applications. This power board together with two drive cards(KIT_XMC1300_DC_V1 and KIT_XMC4400_DC_V1) is included in the XMC Motor Control Application KitKIT_XMC750WATT_AK_V1.
1 OverviewThe motor control application kit KIT_XMC750WATT_AK_V1 is designed for use with 230V AC mains powersupply. The drive cards provide a galvanically isolated debug interface that allows safe software development.A PFC circuitry can be controlled by the on-board PFC IC or by the microcontroller at the drive card. The powerinverter bridge is built by 6 discrete IGBTs in DPAK package. Each leg provides a shunt resistor with amplifierfor phase current measurement. The DC-link also provides a shunt resistor with amplifier for reconstruction ofthe phase current with single shunt method. An additional low pass filter allows measuring the average DC-linkcurrent as well. The power supply for the control devices as well as the drive card is provided by a non isolatedflyback converter which provides 5V and 15V DC. The auxiliary power board connector allows adding aninverter card in order to use the board together with the XMC4400 drive card as dual inverter.The main use case for this board is to demonstrate the generic features of the XMC microcontroller devicesincluding tool chain. The focus is the operation under evaluation conditions. The board is neither cost nor sizeoptimized and does not serve as a reference design.Software examples as well as DAVE Apps are available for download at www.infineon.com/xmc-dev.
1.1 Key Features
The XMC Motor Control Appkication Kit (KIT_XMC750WATT_AK_V1) provides the following features:
• 3 Phase Power Inverter 750W V1.2 (schematic 2016/50, board 2013/45)− Power supply with line filter, NTC bypass relay and PFC circuitry − 3 phase bridge realized with discrete IGBTs (IKD10N60R) − Integrated gate driver with integrated boot strap diodes and protection features (6EDL04I06NT) − PFC control via control IC (ICE3PCS02), MCU or disabled − PFC overcurrent protection fully realized in hardware − On-board power supply for control components (15V and 5V) with flyback controller (ICE3RBR4765JG) − Voltage dividers for DC-link and inverter output voltage measurement (e.g. for motor back EMF detection) − Current sensing circuitry for
o PFCo DC-link current (single shunt measurement)o Low side inverter leg currents (emitter shunt measurement)
− Auxiliary power board connector for optional inverter card • Drive Card XMC1300
− XMC1302 (ARM®
Cortex™-M0-based) Microcontroller, 200 kByte on-chip Flash, TSSOP38− 1 set of combined hall sensor and encoder interfaces − Potentiometer − Isolated Debug Interface
• Drive Card XMC4400− XMC4400 (ARM
®Cortex™-M4-based) Microcontroller, 512 kByte on-chip Flash, LQFP100
− 2 sets of combined hall sensor and encoder interfaces − Multi feedback interface connectors for connection of resolver circuitry, UART, SPI, I2C, USB, etc − Potentiometer − Isolated Debug Interface
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Overview
Board User's Manual 8 Revision 2.0, 2016-12-13
1.2 Block Diagram
Figure 1 shows the functional block diagram of the KIT_XMC750WATT_AK_V1.
The drive cards have got the following building blocks:
• Power Board Connector• 1 or 2 sets of position interface connectors (HALL, ENCODER)• Encoder Enable signals via GPIOs• User LEDs connected to GPIOs• Variable resistor (POTI) connected to ADC• Isolated On-board Debugger via Debug USB connector (Micro-USB) with UART channel• Optional Infineon Debug interface connector for Drive Monitor USB Stick V2 (KIT_DRIVEMONI_USB_V2)
Note: Additional documentation is provided for the drive cards (Board User’s Manual Drive Card XMC1300 andXMC4400).
The power board has got the following building blocks:
• EMC line filter• PFC circuitry with over current protection, selectable with PFC IC control or MCU control• 3phase bridge with IGBTs driver IC and shunts (DC-link single shunt as well as three low side shunts)• Control IC power supply 15V/5V• Drive card connector• Auxiliary power board connector
Figure 1 Block Diagram of KIT_XMC750WATT_AK_V1
Attention: Almost all signals of the kit including connectors and testpoints are referenced to power GNDsupply domain. Hence they may carry hazzardous voltages.
Attention: Due to large capacitors, the DC-Link voltage may provide hazzardous voltages even when theboard is unplugged from power supply.
Attention: The heatsink and the power components including the PFC choke may get hot duringoperation.
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 9 Revision 2.0, 2016-12-13
2 Hardware DescriptionThe following sections give a detailed description of the hardware and how it can be used.
Figure 2 3 Phase Power Inverter 750W V1.2
Table 1 Maximum Ratings
Function min max unit comment
AC Input voltage without PFC 85 250 V AC
AC input current - 3.15 A AC Limited by fuse F101
PFC input voltage 220 250 V AC
PFC input current - 3.5 A AC Protected by PFC IC
DC-link voltage 120 450 V DC
VCC_15V supply voltage 14 18 V
VDD_5V supply voltage 4.65 5.35 V
VDD_5V supply current - 200 mA
Inverter output continuous current -4.16 4.16 A
Inverter output peak current - 9 A Protected by gate driver IC
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 10 Revision 2.0, 2016-12-13
2.1 Power Supply
The the “3 Phase Power Inverter 750W V1.2” board is designed for use with 230V AC mains power supply. Thepower supply contains an EMC line filter with NTC bypass relay, an overcurrent protected PFC stage that canbe controlled either by a PFC control IC or by the microcontroller and a flyback converter for 15V and 5V powersupply.
2.1.1 EMC Line Filter
The input line filter design is shown in Figure 3. It is protected by a 3.15A fuse. The inrush current limiting NTCresistor R111 is by-passed by the relay K101 after a certain time. This reduces the power losses of the inverter.
Figure 3 EMC Line Filter
The relay K101 is controlled by the circuitry of Figure 4.
Figure 4 Control Circuitry of Relay K101
KBU1005_10A
680n_400V
680n_400V3
n3_400V
3n3_400V
0031.8221._5x20
MOUNT-PAD-ROUND3.2
WE
-7448258022
PE
S14K
275
B57364S409M
0R
05_2W
THT_MSTBA3
VSHUNT_PFC_N
VSHUNT_PFC_P
+-
AC2 AC1
B101
BRIDGE101
BRIDGE102
CX
101
CX
102
CY
101
CY
102
F101
H101
O0
O1
P1P0
S0
S1
K101
K1011 12
6 7
L102
R104
R111
R118
1X101-1
2X101-2
3X101-3
Power Supply
3.15A
must be 15V Relay
open
col.
out
10u
1N
41
48
GND
GNDA
GNDA
LM2903
AZ
762-1
C-1
2D
10k
47
k1
0k
10
R
5k6
10
k
200k
BC857C
VCC_15V
VDD_5V
VDD_5V
C118
D1
07
5
67
IC105B
12
K101
K101
R131
R1
32
R1
34
R1
35
R1
37
R1
41 R142
T101
Relay bridge
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 11 Revision 2.0, 2016-12-13
2.1.2 PFC Circuitry
The board provides a PFC circuitry which can be controlled by the on-board PFC control IC or by themicrocontroller at the drive card. The PFC circuitry is designed to be controlled in continuous conduction modefor a boost voltage up to 400V DC. The maximum peak current is 4.72A. For details please refer to Figure 5 andFigure 6.
Figure 5 PFC Circuitry
The PFC control type selection is done with jumper JP101. Closed position 3-4 enables PFC control by MCU,closed position 2-3 enables control by the PFC IC. All pins of JP101 open, disables the PFC IC.
PFC Control by MCU PFC Control by PFC IC
Figure 6 PFC Selector JP101
2.1.3 PFC Control IC, Current Sense and Over Current Protection
The PFC control IC (IC102) ICE3PCS02 is a wide input range (85VAC to 265VAC) controller IC for active CCM(continuous conduction mode) power factor correction. The integrated digital control voltage loop with aswitching frequency of 66kHz allows efficieny up to 95% at full load for the entire input voltage range. SeeFigure 7 for details.
Figure 7 PFC Control IC ICE3PCS02
The PFC stage can be also controlled by the microcontroller of the drive card. There is a current sense amplifierwith a gain of 12.4 available. As a result, the current sense signal from the 50mOhm shunt is amplified with afully differential circuitry. An offset of 2.9V allows a current measurement in the range of –3.36A to +4.72A. The
KBU1005_10A
27
0u
_4
50
V
27
0u
_4
50
V
TR
3D
47
6K
02
5C
01
50
_4
7u
_2
5V
_E
SR
0.1
5
10
0n
_2
5V
68
nF
33
0p
F
68
nF
10
nF
22
0n
_4
50
V
DPAK optional
IDB10S60C
GN
DA
GNDA
GN
DA
FAN3100TSX
Kaschke GP2002.153.807
IKB
20
N6
0H
3
BC
R1
08
W
2M
/20
0V
/1%
33
0k/2
00
V/1
%
33
0K
/1%
10R
2M
/20
0V
/1%
33
0K
/1%
33
0k/2
00
V/1
%
47
k
33
0k/1
00
V/1
%
B57364S409M
10
k
33
0K
/1%
33
0k/2
00
V/1
%
2k2
/1%
10
K/1
%
10
k/1
%
0R
05
_2
W
47
k
39
k/1
%
68
k/1
%
PFC_OFF
DC_LINK
DC
_L
INK
_D
IV
OV
_D
ET
PFC_CTRL
PFC_CTRL_MCU
PF
C_
CT
RL
_V
SE
NS
VCC_15V
VC
C_
15
V
VIN_DIVVSHUNT_PFC_N
VSHUNT_PFC_P
+-
AC2 AC1
B101
BRIDGE101
BRIDGE102
C1
01
C1
02
C1
03
C1
04
C1
05
C1
06
C1
07
C1
08
CX
10
3
D1_OPT
D101
GNDIN+ IN-
OUTVDD IC101
1234
JP101
O0
O1
P1P0
S0
S1
K1
01
K101
E AL101
Q101
Q102
R1
01
R1
02
R1
03
R105 R1
06
R1
07
R1
08
R1
09
R1
10R111
R1
12
R1
13
R1
14
R1
15
R1
16
R1
17
R1
18
R1
19
R1
20
R1
21
(400VDC)
+ +MCU control
PFC controller over driver
GND
1n_25V
4n7_25V
10u_25V
100n_25V
GND
ICE3PCS0250R
0R
68k
0R
/n.m
. OV_DET
PFC_CTRL
PFC_CTRL_VSENS
VCC_15V
VSHUNT_PFC_N
C109
C110
C111 C
112FREQ
GATEGND
ICOMP
ISENSE
OVP
VCCVSENS
IC102
R122
R124
R126
R127
PFC Control IC
Position: 4 3 2 1 Position: 4 3 2 1
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 12 Revision 2.0, 2016-12-13
over current protection is realized by a comparator (IC105A) which disables the gate driver (IC101, Figure 5) incase of overcurrent. Please refer to Figure 8 for details.
Figure 8 PFC Current Sense and Over Current Protection
The PFC current sense gain and offset can be calculated with following formulas:
offset =
R315�R321
R315∙R312∙R320
(R307 + R312) ∙ R313 + (R307 + R312 + R313) ∙ R320∙ VDD_5V
gain =
R315�R321
R315∙[(�307 + �313) ∙ �320 + R307 ∙ R313]
(R307 + R312) ∙ R313 + (R307 + R312 + R313) ∙ R320
Vout = offset + gain ∙ ∆Vshunt = offset − gain ∙ R118 ∙ IPFC
The over current protection threshold can be adjusted with R313; refer to Figure 9. Please note that gain andoffset values also change with different R313.
Figure 9 PFC Peak Current versus R313
47pF10n
n.m.
GN
DA GN
DA
12k
1k8
k2
680R
1k
10
0k
12k
AD8616AR
I_PFC_AMP_RC
VDD_5V
VSHUNT_PFC_N
VSHUNT_PFC_P
C308
C309C310
R307
R312
R3
13
R314
R315
R3
20
R321
5
67
U301B
Current Sensing PFC
Gain: 12.4Offset: 2.9V
Must be LOW to disable PFC
47pF 100n_10V 1u_10V
47pF
10n
GN
DA
GN
DA
GN
DA
GN
DA
GN
DA
GN
DA
GN
DA
LM2903
1k
100k
3k
100R
10
k1
k
PFC_OFF
I_PFC_AMP_RC
VDD_5V
VDD_5V
VDD_5V
VDD_5V
VDD_5V
C311 C312 C313
C314
C316
3
21
84
IC105A
R326
R327
R3
32
R336
R3
43
R3
48
PFC - Over-Current Comparator
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User'
2.1.4 Control Power Supply (VCC_15V and VDD_5V)
The control power supply with VCC_15V and VDD_5V is provided by a flyback switch mode power supply IC(IC103) ICE3RBR4765JG. The voltages can be monitored at test pins JP102 and JP103. The flyback controlcircuitry is shown in Figure 10. Please refer to Figure 28 for winding rules of transformer TR101.
Figure 10 Control Power Supply (VCC_15V and VDD_5V)
There are two mounting options available for the feedback signal of the control loop: a) Using a shunt regulator(e.g. TLVH431AI) or b) using a zener diode. The following components are recommended for each option:
a) IC104 (TLVH431AI), R129 (100k), R130 (33.2k), R133 (0R), R140 (11.1k)
b) Q103 (BC847B), D106 (Zener diode 4.7V), C119 (2.2nF), R130 (4.3k), R140 (1k)
An external power supply for 5V as well as 15V can be used if required. Then R123 and R128 should beunmouned and the voltages can be applied at JP102 (5V) and JP103 (15V).
For test purposes it may make sense to restart the power supply. This can be achieved by connecting TP1(SOFTS/BA) and TP2 (GND). Please refer to 13 for details.
Figure 11
The power s
2.2nF/630V100uF/25V
220uF/10V
0.1uF/0805 33uF/35V
n.m.(2.2nF/0805)n.m.(2.2nF/0805)
10
0n
F/0
80
510
0n
F/0
80
5
1nF/0805
US1J
US1DUS
1J
US1J
n.m
.
GND
ICE
3R
BR
47
65
JG
TLVH431AI-DBZ
n.m.
n.m.
59
88
07
01
07
F_
Gre
en
59
88
07
01
07
F_
Gre
en
n.m.(BC847B)n.m.(BC847B)
0R
33
0K
/1%
/12
06
0R
10
0k/0
60
3
33
k2
/1%
/06
03
0R
/06
03
22R/0805
1k5
2R
2R
11
k/1
%/0
60
3
DGND
DGND
DGND
DGND
3mH
C113C114
C115
C116 C117
C119C119
C120C120
C121
D102
D103
D1
04
D105
D1
06
BA
2
CS
4
DR
AIN
5
DR
AIN
6D
RA
IN7
DR
AIN
8
FB
3
GN
D1
2
VC
C1
1
IC1
03
IC104
12
JP102
12
JP103
LE
D1
01
LE
D1
01
Q103Q103
R123
R1
25
R128
R1
29
R1
30
R1
33
R136
R1
38
R1
39
R1
39
R1
40
TP1
TP2
1
3
4
5
7
8
TR101
DC_LINK
VCC_15V
VDD_5V
VDD_5V
Control Power Supply/MCU Power Supply
5V DC
+
+
+
PR
I
S1
S2
R123
R128
TP1(SOFTS/BA)
s Manual 13
Restart of Control Power Supply via Testpads
tatus of VDD_5V is indicated by LED101 (see Figure 10).
TP2 (GND)
Revision 2.0, 2016-12-13
LED101
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 14 Revision 2.0, 2016-12-13
2.2 3 Phase Inverter
The 3 phase power inverter is built by 6 IGBTs (IKD10N60R) and the gate driver IC (6EDL04I06NT). Eachinverter leg has its own shunt in the low side path for phase current measurement. In addition the common DC-link current can be measured by its own shunt. See Figure 12 and Figure 13 for details.
Figure 12 Power Inverter – IGBT
Figure 13 Power Inverter – Gate Driver
All shunt signals are amplified by operational amplifiers. The gain and offset of all amplifiers is adjusted to thesame value. The offset is buffered by another operational amplifier. See Figure 14 and Figure 15 for details.
1N
41
48
1N
41
48
1N
41
48
1N
41
48
1N
41
48
1N
41
48
10R 10R 10R
100R 47k 100R 47k 100R 47k
10R 10R 10R
100R 47k 100R 47k 100R 47k
0R
05
/2W
0R
05
/2W
0R
05
/2W
0R
05
0/2
W
IKD
10
N6
0R
IKD
10
N6
0R
IKD
10
N6
0R
IKD
10
N6
0R
IKD
10
N6
0R
IKD
10
N6
0R
THT_MSTBA3
COM_0
DC_LINK
GND_INV_0
HO1_0 HO2_0 HO3_0
LE_UN
LE_UP
LE_VN
LE_VP
LE_WN
LE_WP
LO1_0 LO2_0 LO3_0
U_0
U_0
VSHUNT_0_N
VSHUNT_0_P
V_0V_0
W_0W_0
BRIDGE201
BRIDGE202
BRIDGE_U BRIDGE_V BRIDGE_W
D2
01
D2
02
D2
03
D2
04
D2
05
D2
06
R218 R219 R220
R221 R222 R223 R224 R225 R226
R228 R229 R230
R231 R232 R233 R234 R235 R236
R2
38
R2
39
R2
40
R2
45
S201 S202 S203
S204 S205 S206
1X201-1
2X201-2
3X201-3
3-Phase Inverter Bridge
I_ADC(max): +/-4.16A
I_trip(typ): +9A
10
u_
25
V
10
u_
25
V
10u_25V
100nF
10u_25V
10u_25V
10
0p
_2
5V
2n2_25V
6EDL04I06NT
n.m.
n.m.
10k
0R
3K3
n.m
.
n.m
.
n.m
.
DGND
VDD
/FO_0
COM_0
ENABLE_0
GND_INV_0
GND_INV_0GND_INV_0
GND_INV_0
GND_INV_0
GND_INV_0
HO1_0
HO2_0
HO3_0
LO1_0
LO2_0
LO3_0
U_0
U_H
U_L
VB1_0
VB2_0
VB3_0
VCC_15V
VCC_15V
VSHUNT_0_P
V_0
V_H
V_L
W_0
W_H
W_L
C2
10
C2
11
C212
C213
C214
C215
C2
16
C217
COM13
EN10
FAULT8
HIN12
HIN23
HIN34
HO127
HO223
HO319
ITRIP9
LIN15
LIN26
LIN37
LO116
LO215
LO314
RCIN11
VB128
VB224
VB320
VCC1
VS126
VS222
VS318
VSS12
IC202
12
JP201
12
JP202
R227
R2
37
R241
R2
42
R2
43
R2
44
Gate Driver Circuit
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
B
Figure 14 Phase Current Sensing and Reference Voltage Buffer (e.g. Phase W)
offset = REF_2.5V =R211
R211 + R204∙ VDD_5V
gain =R217
R216under the condition that
R203
R207=
R217
R216
Vout = offset + gain ∙ ∆Vshunt = offset − gain ∙ R240 ∙ IPhase_W
F
Tg(
T
Tdo
Toa
Ihs
Ti
100n_25V 1u_25V
n.m
.
47pF
10
nF
GNDA GNDA
GN
DA
GN
DA
GN
DA
MC33174D MC33174D
12
K
20
K
1K680R
20
K
1K 12K
I_W
LE
_W
NLE
_W
P
REF_2.5V
REF_2.5V
VCC_15V
VCC_15V VCC_15V
VDD_5V
C201 C202
C2
07
C208
C2
09
10
98
IC201C12
1314
IC201D
411
R2
03
R2
04
R207R210
R2
11
R216 R217
100n_10V 1u_10V
DA
DA
12kREF_2.5V
C303
R301
gain = 12
offset = 2.5V
offset = 2.5V
oard User's Manual 15 Revision 2.0, 2016-12-13
igure 15 DC-Link Current Sensing
he gains are adjusted to measure a maximum current of 4.16A and to trigger the over voltage protection of theate driver at 9A. There are testpoints for monitoring the itrip voltage as well as the protection output signal/FO).
he following diagram (Figure 16) shows the timing of the gate driver for high side and low side IGBTs.
he dead time (tDT+ for rising and tDT- for falling output signals) is the time which is required betweeneactivation e.g. of the high side IGBT (U_H: low to high, active to passive level, respectively) and the activationf the low side IGBT (U_L: high to low, passive to active level, respectively).
he driver delay (tDD+ for rising and tDD- for falling output signals) is the delay time of the driver for changing theutput signal from low to high after the activation of the respective IGBT driver input (high side for high outputnd low side for low output signal).
n the diagram (Figure 16) the delay time defined by the driver itself is shown as tDxOFF and tDxON (with x=H forigh side and x=L for low side) and can be measured between microcontroller output signal and IGBT gateignal.
he total output delay time taken from the microcontroller signal edge until the inverter output level has changeds described with tOUT+ for low to high transition and tOUT- for high to low transition.
n.m.
47pF 100nF
n.m.
GN
DA
GN
DA
GN
DA
GN
DA
GN
GN
1k
680R 10k
1k
12k
AD8616AR I_DC_LINK_0 I_DC_LINK_AVG
VDD_5V
VSHUNT_0_N
VSHUNT_0_P
C305 C306
C307
R302
R303 R304
R305
R306
3
21
84
U301AV+
V-
fcut = 159Hz
gain = 12
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 16 Revision 2.0, 2016-12-13
Figure 16 Inverter Timing Diagram
Please refer to Table 2 for typical values of the “3 Phase Power Inverter 750W V1.2” which have beenmeasured under room temperature.
Table 2 Typical Inverter Timing Parameters
Rising Output Signal Falling Output Signal
Dead Time tDT+ 750ns tDT- 750ns
Driver Delay tDD+ 800ns tDD- 800ns
Total Output Delay tOUT+ 1.550µs tOUT+ 1.550µs
High Side Low Side
IGBT Drive ON delay tDHON 550ns tDLON 550ns
IGBT Driver OFF delay tDHOFF 550ns tDLOFF 650ns
The gate driver enable signal is inverted in order to provide active low behaviour. LED 301 indicates an activegate driver. The power inverter outputs can be monitored at signals BEMF_U, BEMF_V and BEMF_W with aratio of 417.5V : 5V. Please refer to Figure 17 for details.
Figure 17 Output Voltage (BEMF) Signal Dividers and Inverting Gate Driver Enable Circuitry
BEMF detection at 3 phase
n.m. n.m. n.m.5V1 5V1 5V1
GN
DA
GN
DA
GN
DA
59
88
07
01
07
F_
Gre
en
BCR148W
330K/1% 330K/1% 330K/1%
330K/1% 330K/1% 330K/1%
330K/1% 330K/1% 330K/1% 1k5 2k
10
k
12K/1% 12K/1% 12K/1%
/ENABLE_0
BE
MF
_U
BE
MF
_V
BE
MF
_W
ENABLE_0
GND_INV_0
U_0
VDD_5V VDD_5VVDD_5V
V_0 W_0
C317 C318 C319
D301 D302 D303
LE
D3
01
Q301
R328 R329 R330
R333 R334 R335
R337 R338 R339 R340
R3
41
R3
42
R345 R346 R347
Enable Circuitry 1
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 17 Revision 2.0, 2016-12-13
A tempertaure sensor (R331, NTC thermistor) is placed close to the IGBTs of the inverter bridge in order toallow thermal protection by software. In addition, an external temperature sensor can be connected at JP301.Please refer to Figure 18 for details about the selected component (muRata NCP18WF104J03RB).
Figure 18 Temperature Sensor Circuitry and Thermistor Parameter
2.3 Drive Card Connector
The power inverter board of KIT_XMC750WATT_AK_V1 provides a drive card connector with all the signalsrequired to control the power inverter. Next to the PWM input signals of the gate driver as well as the sensesignals for current measurement, there are the power supply pins for the 5V power domain.
Figure 19 shows the signal assignment fo the drive card connector together with the pin assignment of the drivecards for XMC1300 and XMC4400. The pin and peripheral assignment can also be found in the following table.
Please note that the numbering of the power board connector at the drive card is inversed to the numbering ofthe drive card connector at the power board.
Figure 19 Drive Card Connector
Table 3 Drive Card Connector
Male
MAB32B2
X301
FAB32Q2
Function Signal of
Power Inverter
Port
XMC1300
Port
XMC4400
A1 A16 GND GNDA / DGND VSS, VSSP VSSA2 A15 PFC Gate PFC_CTRL_MCU P0.5 P1.3 &
P0.8A3 A14 IPFC I_PFC_AMP_RC P2.2 P15.8 & P0.0A4 A13 VPFC VIN_DIV P2.4 P15.9A5 A12 VBEMF_U / IU (2) I_U_X P2.9 P14.1A6 A11 VBEMF_V / IV (2) I_V_X P2.10 P14.15
10n
GN
DA
n.m.
10
0k
NCP18WF104J03RB
TEMP
VDD_5V
C315
12
JP301
R3
31
R3
44
100n_10V
GNDAGNDA
THT_FAB32Q2 THT_FAB32Q2/ENABLE1 /ENABLE_0
/FO_0/TRAP1
BEMF_UBEMF_V
BEMF_W
BRAKE_GATE
DC_LINK_DIV_X
DGND
GNDA
I_DC_LINK_0I_DC_LINK_AVG_X
I_PFC_AMP_RC
I_U_XI_V_X
I_W_X
PFC_CTRL_MCUTEMP_X
U_HU_H1
U_LU_L1
VDD_5V
VDD_5VVDD_5V
VIN_DIV
V_HV_H1
V_LV_L1
W_HW_H1
W_LW_L1
BRIDGE301
C304
X301-A1
X301-A2X301-A3X301-A4X301-A5X301-A6X301-A7X301-A8X301-A9X301-A10X301-A11X301-A12X301-A13X301-A14X301-A15X301-A16
X301-B1
X301-B2X301-B3X301-B4X301-B5X301-B6X301-B7X301-B8X301-B9
X301-B10X301-B11X301-B12X301-B13X301-B14X301-B15X301-B16
--------
GNDA1A2A3A4A5A6A7A8A9A10A11A12A13A14A15A16
B1B2B3B4B5B6B7B8B9
B10B11B12B13B14B15B16
C40.0 / CMP2.OG0CH7 / CMP2.IN-G1CH6G0CH2 / G1CH4G0CH3 / G1CH2G0CH4 / G1CH3G0CH6
Drive Card
Auxiliary Power connector 750W On-Board Inverter Stage
DC_XMC4400_V1 DC_XMC1300_V1
P4.1ERU1.2B0 (PD1)C81.20 / C80.33C81.21 / C80.32C81.10 / C80.23C81.11 / C80.22C81.00 / C80.03C81.01 / C80.02
GNDHR.10HR.C1IN / G3CH0G3CH1G0CH1G0CH3 / G1CH3G0CH5 / G2CH1G1CH0 / G3CH2
P0.11C80.IN0,1,2,3
C80.20 / C80.02C80.21 / C80.03
C80.10C80.11C80.00C80.01
VDD
G1CH5
G0CH1 / G1CH0G0CH5
G0CH0
G1CH1
Drive Card
DC_XMC4400_V1DC_XMC1300_V1
P0.12C80.IN0,1,2,3
C80.13 / C80.20 / HR.30C80.12 / C80.21 / HR.31C80.21 / C80.10 / HR.21C80.20 / C80.11 / HR.20
C80.00 / HR.00C80.01 / HR.01
VDDC42.0
G2CH3G1CH1 / G3CH3
G0CH0G0CH2 / G1CH2G0CH4 / G2CH0
G1CH6 / G1.ORC6
--
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 18 Revision 2.0, 2016-12-13
A7 A10 VBEMF_W / IW (2) I_W_X P2.11 P14.5A8 A9 I_AVG / IDClink (2) I_DC_LINK_AVG_X P2.1 P14.8A9 A8 U1_L U_L1 - P1.12 & P0.10A10 A7 U1_H U_H1 - P1.15 & P2.7A11 A6 V1_L V_L1 - P1.11 & P2.9A12 A5 V1_H V_H1 - P1.5A13 A4 W1_L W_L1 - P1.10 & P2.8A14 A3 W1_H W_H1 - P1.4A15 A2 CTRAP1 /TRAP1 - P1.2A16 A1 ENPOW1 /ENABLE1 - P4.1B1 B16 VCC 5V VDD_5V VDD, VDDP VDDB2 B15 Brake Gate BRAKE_GATE - P3.6B3 B14 Brake temp TEMP_X - P15.3B4 B13 VDClink DC_LINK_DIV_X P2.3 P14.9B5 B12 VBEMF_U / IU (1) BEMF_U P2.6 P14.0B6 B11 VBEMF_V / IV (1) BEMF_V P2.8 P14.2B7 B10 VBEMF_W / IW (1) BEMF_W P2.0 P14.4B8 B9 IDClink (1) I_DC_LINK_0 P2.7 P14.14B9 B8 U0_L U_L P0.1 P0.2B10 B7 U0_H U_H P0.0 P0.5B11 B6 V0_L V_L P0.6 P0.1 &
P0.3B12 B5 V0_H V_H P0.7 P0.4 & P2.14B13 B4 W0_L W_L P0.9 & P0.3 P0.11 & P0.9B14 B3 W0_H W_H P0.8 & P0.2 P0.6 &
P2.6B15 B2 CTRAP0 /FO_0 P0.12 P0.7B16 B1 ENPOW0 /ENABLE_0 P0.11 P0.12
Attention: The drive card connector provides the power supply for the power GND supply domain.Hence it may carry hazzardous voltages.
2.4 Auxiliary Power Board Connector
A second inverter card can be connected to the auxiliary power board connector. There are all necessarysignals and power supplies available. Please refer to Figure 20 for details.
Figure 20 Auxiliary Power Board Connector
GND
DC_LINK
DGND
PINHD-2X9
MSTBV2
/ENABLE1/TRAP1
BRAKE_GATE
CON13CON14
CON15CON16
CON17CON18
U_H1U_L1
VCC_15VVDD_5V
V_H1V_L1
W_H1W_L1
1 23 45 67 89 10
11 1213 1415 1617 18
X302
1X303-1
2X303-2
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Hardware Description
Board User's Manual 19 Revision 2.0, 2016-12-13
This connector is considered as an optional extension and the analog signals are shared netween the on-boardpower inverter and the auxiliary connector. The desired signal can be chosen by 0R resistors close to the DriveCard connector. Figure 21 and the following table give details about the optional signal selection.
Figure 21 Analog Signal Selector
Table 4 Auxiliary Power Board Connector
X302 Auxiliary PowerBoard Connector
X301 Drive CardConnector
Signal at Drive CardConnector
Signal of
Power Inverter
Optional SignalX302
X302-1 B16 VDD_5V VDD_5V VDD_5V
X302-2 - - VCC_15V VCC_15V
X302-3 A2 /TRAP1 - /TRAP1
X302-4 A1 /ENABLE1 - /ENABLE1
X302-5 A4 W_L1 - W_L1
X302-6 A3 W_H1 - W_H1
X302-7 A6 V_L1 - V_L1
X302-8 A5 V_H1 - V_H1
X302-9 A8 U_L1 - U_L1
X302-10 A7 U_H1 - U_H1
X302-11 A16 GND DGND DGND
X302-12 B15 BRAKE GATE - BRAKE GATE
X302-13 (A9) I_DC_LINK_AVG_X I_DC_LINK_AVG CON13
X302-14 (A10) I_W_X I_W CON14
X302-15 (B13) DC_LINK_DIV_X DC_LINK_DIV CON15
X302-16 (A11) I_V_X I_V CON16
X302-17 (B14) TEMP_X TEMP CON17
X302-18 (A12) I_U_X I_U CON18
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 20 Revision 2.0, 2016-12-13
3 Production Data
3.1 Schematics
This chapter contains the schematics for the 3 phase power inverter 750W V1.2 (2016/50).• Line Filter, PFC, DC-Link 400V, Power Supply 15V/5V• Gate Driver, Power Bridge (IGBT), Phase Current Shunt Amplifier• Single Shunt Amplifier, PFC Amplifier, PFC Overload Protection, Drive Card and Auxiliary Power Connector
The board has been designed with Eagle V7.5. The full PCB design data of this board can also be downloadedfrom www.infineon.com/xmc-dev.
Figure 22 Schematics: Title Page (V1.2 – 2016/50)
ADJ_401 ADJ_402 ADJ_403
A
B
C
D
E
1 2 3 4 5 6 7 8
A
B
C
D
E
1 2 3 4 5 6 7 8
750W_Inverter_V1.2
not saved!
1/4Sheet:
Legal Disclaimer
The information given in this document shall in no event be regarded as a guarantee of conditions or
characteristics. With respect to any examples or hints given herein, any typical values stated herein and/or any
information regarding the application of the device, Infineon Technologies hereby disclaims any and all warranties
and liabilities of any kind, including without limitation, warranties of non-infringement of intellectual property rights
of any third party.
3phase Power Inverter 750W V1.2
[1] Contents[2] Line Filter, PFC, DC-Link 400V, Power Supply 15V/5V[3] Gate Drive, Power Bridge (IGBT), Phase Current Shunt Amplifier
Fiducials
2016/50
V1.1 / 08.11.2013 / AR
[4] Single Shunt Amplifier, PFC Amplifier, PFC Overload ProtectionDriveCard Connector, Auxiliary Power Connector
V1 / 05.09.2013 / AR
V1.2 / 12.12.2016 / YS
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 21 Revision 2.0, 2016-12-13
Figure 23 Line Filter, PFC, DC-Link 400V, Power Supply 15V/5V
must
be
15V
Rela
y
opencol.out
KB
U10
05_
10A
KB
U10
05_
10A
270u_450V 270u_450V
270u_450V 270u_450V
TR3D476K025C0150_47u_25V_ESR0.15 TR3D476K025C0150_47u_25V_ESR0.15
100n_25V 100n_25V
68nF 68nF
330pF 330pF
68nF 68nF
10nF 10nF
1n_
25V
1n_
25V
4n7_25V 4n7_25V
10u_25V 10u_25V
100n_25V 100n_25V
2.2
nF
/630V
100
uF
/25V
220u
F/1
0V
0.1
uF
/0805
33u
F/3
5V
10
u1
0u
n.m
.(2
.2nF
/080
5)
n.m
.(2
.2nF
/080
5)
100nF/0805 100nF/0805
1nF
/080
5
680n_400V 680n_400V
680n_400V 680n_400V
220n_450V 220n_450V
3n3_400V 3n3_400V
3n3_400V 3n3_400V
DP
AK
op
tiona
lD
PA
Kop
tiona
l
IDB
10
S6
0C
IDB
10
S6
0C
US
1J
US
1D
US1J
US
1J
n.m.
1N4148 1N4148
00
31.8
221._
5x2
000
31.8
221._
5x2
0
GN
D
GN
DG
ND
GNDA
GN
DA
GN
DA
GN
DG
ND
GNDA
GN
DG
ND
GN
DA
GN
DA
GN
DA
GN
DA
MO
UN
T-P
AD
-RO
UN
D3
.2M
OU
NT
-PA
D-R
OU
ND
3.2
MO
UN
T-P
AD
-RO
UN
D3.2
MO
UN
T-P
AD
-RO
UN
D3.2
FA
N3
10
0T
SX
FA
N3
10
0T
SX
ICE
3P
CS
02
ICE
3P
CS
02
ICE3RBR4765JG
TLV
H431
AI-
DB
Z
LM
29
03
LM
29
03
n.m
.
n.m
.
AZ762-1C-12D AZ762-1C-12D
Kasc
hke
GP
200
2.1
53
.807
WE-7448258022 WE-7448258022
5988070107F_Green 5988070107F_Green
PE
PE
PE
IKB20N60H3 IKB20N60H3
BCR108W BCR108W
n.m
.(B
C8
47B
)n.m
.(B
C8
47B
)
2M/200V/1% 2M/200V/1%
330k/200V/1% 330k/200V/1%
330K/1% 330K/1%
S14K275 S14K275
10
R10
R
2M/200V/1% 2M/200V/1%
330K/1% 330K/1%
330k/200V/1% 330k/200V/1%
47k
330k/100V/1% 330k/100V/1%
B57
364S
40
9M
B57
364S
40
9M
10k 10k
330K/1% 330K/1%
330k/200V/1% 330k/200V/1%
2k2/1%
10K/1% 10K/1%
10k/1% 10k/1%
0R05_2W
47k 47k
39k/1%
68k/1%
50R
50R
0R
0R
330K/1%/1206
68k
0R/n.m.
0R
100k/0603
33k2/1%/0603
10
k1
0k
47k 47k
0R/0603
10k 10k
10R 10R
22
R/0
805
5k6 5k6
1k5
2R2R
11k/1%/0603
10k 10k
20
0k
20
0k
DG
ND
DG
ND
DG
ND
DG
ND
DG
ND
BC
85
7C
BC
85
7C
3m
H
TH
T_M
ST
BA
3T
HT
_M
ST
BA
3
B101
+ -
AC
2A
C1
B101
BR
IDG
E1
01
BR
IDG
E1
02
BR
IDG
E1
03
BR
IDG
E1
04
C101 C101
C102 C102
C103 C103
C104 C104
C105 C105
C106 C106
C107 C107
C108 C108
C109
C109
C110 C110
C111 C111
C112 C112
C113
C114
C1
15
C116
C117
C1
18
C1
18
C11
9C
11
9
C120
C120
C1
21
CX101 CX101
CX102 CX102
CX103 CX103
CY101 CY101
CY102 CY102
D1_
OP
TD
1_
OP
T
D10
1D
10
1
D1
02
D1
03
D104
D105
D106
D107 D107
F10
1F
10
1
H101
H101
H102
H102
IC1
01
GN
DIN
+IN
-
OU
TV
DD
IC1
01
IC1
02
FR
EQ
GA
TE
GN
DIC
OM
P
ISE
NS
E
OV
P
VC
CV
SE
NS
IC1
02
BA2
CS4
DRAIN5
DRAIN6
DRAIN7
DRAIN8
FB3
GND12
VCC11
IC103
IC1
04
IC1
05
B
567
IC1
05
B
1234
JP1
01
1 2
JP1
02
1 2
JP1
03
K1
01
12
K1
01
K1
01
O0O1
P1
P0
S0S1K
101
EA
L101
L102
112
67
L102
LED101 LED101
Q1
01
Q1
01
Q1
02
Q1
02
Q1
03
Q1
03
R101 R101
R102 R102
R103 R103
R104 R104
R10
5R
10
5
R106 R106
R107 R107
R108 R108
R109
R110 R110
R111
R111
R112 R112
R113 R113
R114 R114
R115
R116 R116
R117 R117
R118
R119 R119
R120
R121
R1
22
R1
22
R123
R1
24
R125
R126
R127
R128
R129
R130
R1
31
R1
31
R132 R132
R133
R134 R134
R135 R135
R13
6
R137 R137
R138
R139 R139
R140
R141 R141
R1
42
R1
42
T101
T101
TP
1 TP
2
134
57 8
TR
10
1
1X
10
1-1
2X
10
1-2
X10
1-3
3X
10
1-3
PF
C_
OF
F
DC
_LIN
K
DC
_LIN
K
DC_LINK_DIV
GN
D_
INV
_0
OV_DET
OV
_D
ET
PF
C_
CT
RL
PF
C_
CT
RL
PF
C_
CT
RL
_M
CU
PF
C_
CT
RL
_V
SE
NS
PFC_CTRL_VSENS
VC
C_1
5V
VC
C_1
5V
VCC_15V
VC
C_
15
V
VC
C_
15V
VD
D_
5V
VD
D_
5V
VD
D_5
V
VD
D_5V
VIN
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IVV
SH
UN
T_
PF
C_
N
VS
HU
NT
_P
FC
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VS
HU
NT
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FC
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Pow
er
Supply
(400
VD
C)
Contr
olP
ow
er
Supply
/MC
UP
ow
er
Supply
3.1
5A
Rela
ybridge
5V
DC
PF
CC
ontr
olI
C
+
+
+
+
+
A B C D E
12
34
56
78
A B C D E
12
34
56
78
750W
_In
vert
er_
V1.2
12
/12
/20
16
11
:30
AM
2/4
Sh
eet:
Leg
alD
iscl
aim
er
Th
ein
form
atio
ng
ive
nin
this
do
cum
en
tsh
all
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oe
ven
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ere
ga
rde
da
sa
gu
ara
nte
eo
fco
nd
itio
ns
or
cha
ract
erist
ics.
With
resp
ect
toa
ny
exa
mp
les
or
hin
tsg
ive
nh
ere
in,
an
yty
pic
alv
alu
es
sta
ted
he
rein
an
d/o
ra
ny
info
rma
tion
reg
ard
ing
the
ap
plic
atio
no
fth
ed
evi
ce,
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eo
nT
ech
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ies
he
reb
yd
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ny
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da
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ties
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of
an
yki
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clu
din
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itho
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tion
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arr
an
ties
of
no
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frin
ge
me
nt
of
inte
llect
ua
lpro
pe
rty
rig
hts
of
an
yth
ird
pa
rty.
He
ats
ink
Aa
vid
Th
erm
allo
y7
80
75
PRI
S1S2
MC
Uco
ntr
ol
PF
Cco
ntr
olle
ro
ver
drive
r
GN
D
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 22 Revision 2.0, 2016-12-13
Figure 24 Gate Driver, Power Bridge (IGBT), Phase Current Shunt Amplifier
10
0n
_2
5V
1u
_2
5V
n.m.
47
pF
n.m.
47
pF
n.m.
47
pF
10nF 10nF
10u_25V 10u_25V
10u_25V 10u_25V
10
u_
25
V1
0u
_2
5V
10
0n
F1
00
nF
10
u_
25
V1
0u
_2
5V
10
u_
25
V1
0u
_2
5V
100p_25V 100p_25V
2n
2_
25
V2
n2
_2
5V
1N4148 1N4148
1N4148 1N4148
1N4148 1N4148
1N4148 1N4148
1N4148 1N4148
1N4148 1N4148
GNDA
GN
DA
GN
DA
GNDA
GN
DA
GN
DA
GNDA
GNDA
GNDA
MC
33
17
4D
MC
33
17
4D
MC
33
17
4D
MC
33
17
4D
6E
DL
04
I06
NT
n.m
.
n.m
.
12K 12K
12K 12K
12K 12K
20K 20K
1K
1K
1K
1K
1K
1K
68
0R
68
0R
68
0R
68
0R
68
0R
68
0R
20K 20K
1K
1K
12
K1
2K
1K
1K
12
K1
2K
1K
1K
12
K1
2K
10
R1
0R
10
R1
0R
10
R1
0R
10
0R
10
0R
47
k4
7k
10
0R
10
0R
47
k4
7k
10
0R
10
0R
47
k4
7k
10
k1
0k
10
R1
0R
10
R1
0R
10
R1
0R
10
0R
10
0R
47
k4
7k
10
0R
10
0R
47
k4
7k
10
0R
10
0R
47
k4
7k
0R0R
0R05/2W
0R05/2W
0R05/2W
3K
33
K3
n.m. n.m.
n.m. n.m.
n.m. n.m.
0R050/2W 0R050/2W
IKD10N60R IKD10N60R
IKD10N60R IKD10N60R
IKD10N60R IKD10N60R
IKD10N60R IKD10N60R
IKD10N60R IKD10N60R
IKD10N60R IKD10N60R
DG
ND
VD
DV
DD
TH
T_
MS
TB
A3
TH
T_
MS
TB
A3
BR
IDG
E201
BR
IDG
E202
BR
IDG
E_U
BR
IDG
E_V
BR
IDG
E_W
C2
01
C2
02
C203
C2
04
C205
C2
06
C207
C2
08
C209 C209
C210 C210
C211 C211
C2
12
C2
12
C2
13
C2
13
C2
14
C2
14
C2
15
C2
15
C216 C216
C2
17
C2
17
D201 D201
D202 D202
D203 D203
D204 D204
D205 D205
D206 D206
3 21
IC2
01
A5 6
7
IC2
01
B1
0 98
IC2
01
C1
2
13
14
IC2
01
D
4 11
CO
M1
3
EN
10
FA
ULT
8
HIN
12
HIN
23
HIN
34
HO
12
7
HO
22
3
HO
31
9IT
RIP
9
LIN
15
LIN
26
LIN
37
LO
11
6
LO
21
5
LO
31
4R
CIN
11
VB
12
8
VB
22
4
VB
32
0
VC
C1
VS
12
6
VS
22
2
VS
31
8
VS
S12
IC2
02
1 2
JP
20
1
12
JP
20
2
R201 R201
R202 R202
R203 R203
R204 R204
R2
05
R2
05
R2
06
R2
06
R2
07
R2
07
R2
08
R2
08
R2
09
R2
09
R2
10
R2
10
R211 R211
R2
12
R2
12
R2
13
R2
13
R2
14
R2
14
R2
15
R2
15
R2
16
R2
16
R2
17
R2
17
R2
18
R2
18
R2
19
R2
19
R2
20
R2
20
R2
21
R2
21
R2
22
R2
22
R2
23
R2
23
R2
24
R2
24
R2
25
R2
25
R2
26
R2
26
R2
27
R2
27
R2
28
R2
28
R2
29
R2
29
R2
30
R2
30
R2
31
R2
31
R2
32
R2
32
R2
33
R2
33
R2
34
R2
34
R2
35
R2
35
R2
36
R2
36
R237 R237
R238
R239
R240
R2
41
R2
41
R242 R242
R243 R243
R244 R244
R245 R245
S2
01
S2
01
S2
02
S2
02
S2
03
S2
03
S2
04
S2
04
S2
05
S2
05
S2
06
S2
06
X2
01
-11
X2
01
-1
X2
01
-22
X2
01
-2
X2
01
-33
X2
01
-3
/FO
_0
CO
M_
0
CO
M_
0
DC
_L
INK
EN
AB
LE
_0
GN
D_
INV
_0
GN
D_
INV
_0
GN
D_
INV
_0
GN
D_
INV
_0
GN
D_
INV
_0
GN
D_
INV
_0
GN
D_
INV
_0
HO
1_
0H
O1
_0
HO
2_
0
HO
2_
0
HO
3_
0
HO
3_
0
I_U
I_V
I_W
LE
_U
N
LE_UNLE_UP
LE
_U
P
LE
_V
N
LE_VN
LE
_V
P
LE_VP
LE
_W
N
LE_WN
LE
_W
P
LE_WP
LO
1_
0
LO
1_
0
LO
2_
0
LO
2_
0
LO
3_
0
LO
3_
0
RE
F_
2.5
V
RE
F_
2.5
VR
EF
_2
.5V
RE
F_
2.5
V
U_
0
U_
0
U_
0U
_H
U_
L
VB
1_
0
VB
2_
0
VB
3_
0
VC
C_15V V
CC
_15V
VC
C_
15
V
VC
C_15V
VC
C_15V
VD
D_
5V
VS
HU
NT
_0
_N
VS
HU
NT
_0
_P
VS
HU
NT
_0_P
V_
0
V_
0V
_0
V_H
V_
L
W_
0
W_
0W
_0
W_H
W_
L
Gate
Dri
ver
Cir
cuit
3-P
hase
Invert
er
Bri
dge
3phase
shuntcurr
entdete
ction
Gain
:12
Offset:
2.5
V
A B C D E
12
34
56
78
A B C D E
12
34
56
78
750W
_In
vert
er_
V1.2
12
/12
/20
16
11
:30
AM
3/4
Sh
eet:
Le
ga
lD
iscla
ime
r
The
info
rmation
giv
en
inth
isdocum
entshall
inno
eventbe
regard
ed
as
aguara
nte
eofconditio
ns
or
chara
cte
ristics.W
ith
respectto
any
exam
ple
sor
hin
tsgiv
en
here
in,any
typic
alvalu
es
sta
ted
here
inand/o
rany
info
rmation
regard
ing
the
applic
ation
ofth
edevic
e,In
fineon
Technolo
gie
shere
by
dis
cla
ims
any
and
all
warr
anties
and
liabili
ties
ofany
kin
d,in
clu
din
gw
ithoutlim
itation,w
arr
anties
ofnon-i
nfr
ingem
entofin
telle
ctu
alpro
pert
yri
ghts
ofany
thir
dpart
y.
I_A
DC
(ma
x):
+/-
4.1
6A
I_tr
ip(t
yp
):+
9A
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 23 Revision 2.0, 2016-12-13
Figure 25 Single Shunt and PFC Amplifier, PFC Protection, Drive Card and Auxiliary Power Connector
BE
MF
dete
ctio
nat
3phase
Must
be
LO
Wto
dis
able
PF
C
100n
_10V
1u
_10
V
n.m
.
100n
_10
V
47
pF
47
pF
100n
F1
00n
F
n.m
.n
.m.
47
pF
10
n
n.m
.n
.m.
47pF
100n_
10V
1u_
10V
47p
F
10n
10
n
n.m
.n.m
.n
.m.
5V
15V
15V
15V
15V
15V
1
GN
DG
ND
GN
DA
GN
DA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GN
DA
GN
DA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
GNDA
LM
2903
n.m
.
5988070107F_Green 5988070107F_Green
DC
_LIN
K
BC
R1
48W
BC
R1
48W
12k
1k
1k
680R
10
k
1k
1k
12
k12
k
12k
12k
0R
/06
03
n.m
./06
03
0R
/06
03
n.m
./06
03
1k
1k
8k2
68
0R
1k
1k
0R
/06
03
n.m
./06
03
0R
/06
03
n.m
./06
03
100k
12k
12k
0R
/06
03
n.m
./06
03
0R
/06
03
n.m
./06
03
1k
100k
330
K/1
%330
K/1
%330
K/1
%330
K/1
%330
K/1
%330
K/1
%
100k
3k
330
K/1
%330
K/1
%330
K/1
%330
K/1
%330
K/1
%330
K/1
%
100
R
330
K/1
%330
K/1
%330
K/1
%330
K/1
%330
K/1
%330
K/1
%1k5
1k5
2k
10k
10k
NC
P18W
F1
04J0
3R
BN
CP
18W
F1
04J0
3R
B12
K/1
%12
K/1
%12
K/1
%12
K/1
%12
K/1
%12
K/1
%
1k
DG
ND
AD
861
6A
RA
D861
6A
R
AD
861
6A
R
TH
T_F
AB
32
Q2
TH
T_F
AB
32
Q2
TH
T_F
AB
32
Q2
TH
T_F
AB
32
Q2
PIN
HD
-2X
9
MS
TB
V2
MS
TB
V2
BR
IDG
E3
01
C3
01
C30
2
C30
3
C3
04
C30
5C
30
5C
306
C3
06
C3
07
C3
07
C30
8
C30
9C
310
C310
C3
11
C3
12
C313
C314
C3
15
C31
6
C317
C31
8C
319
D30
1D
30
1D
30
2D
30
2D
303
D303
3 21
8 4
IC105
A
1 2
JP3
01
LED301 LED301
Q301
Q301
R3
01 R
302
R3
02
R3
03
R30
4
R3
05
R3
05
R306
R306
R307
R307
R30
8R
30
9
R31
0R
31
1R
312
R3
12
R313
R31
4
R3
15
R3
15
R31
6R
31
7
R31
8R
31
9
R320
R321
R321
R32
2R
32
3
R32
4R
32
5
R3
26
R3
27
R3
28
R3
28
R329
R329
R3
30
R3
30
R331
R332
R3
33
R3
33
R334
R334
R3
35
R3
35
R336
R3
37
R3
37
R338
R338
R3
39
R3
39
R3
40
R3
40
R341
R342
R343
R344 R344
R3
45
R3
45
R346
R346
R3
47
R3
47
R348
U3
01A
3 21
8 4U
301A
5 67
U3
01B
X301-A
1X
301-A
1
X301-A
2X
301-A
3X
301-A
4X
301-A
5X
301-A
6X
301-A
7X
301-A
8X
301-A
9X
301-A
10
X301-A
11
X301-A
12
X301-A
13
X301-A
14
X301-A
15
X301-A
16
X30
1-B
1X
30
1-B
1
X30
1-B
2X
30
1-B
3X
30
1-B
4X
30
1-B
5X
30
1-B
6X
30
1-B
7X
30
1-B
8X
30
1-B
9X
301
-B1
0X
301
-B1
1X
301
-B1
2X
301
-B1
3X
301
-B1
4X
301
-B1
5X
301
-B1
6
12
34
56
78
910
11
12
13
14
15
16
17
18
X3
02
1X
30
3-1
X30
3-2
2X
30
3-2
PF
C_O
FF
/EN
AB
LE
1
/EN
AB
LE
1/E
NA
BLE
_0
/EN
AB
LE
_0
/FO
_0
/TR
AP
1
/TR
AP
1
BEMF_U
BE
MF
_U
BEMF_VB
EM
F_V
BEMF_W
BE
MF
_W
BR
AK
E_G
AT
E
BR
AK
E_
GA
TE
CO
N13
CO
N1
3
CO
N14
CO
N1
4
CO
N15
CO
N1
5
CO
N16
CO
N1
6
CO
N17
CO
N1
7
CO
N18
CO
N1
8
DC
_LIN
K_D
IV/2
.8A
DC
_LIN
K_D
IV_X
DC
_LIN
K_D
IV_X
DG
ND
EN
AB
LE
_0
GN
DA
GN
D_IN
V_
0
I_D
C_LIN
K_0
I_D
C_L
INK
_0
I_D
C_LIN
K_A
VG
I_D
C_L
INK
_A
VG
I_D
C_
LIN
K_
AV
G_X
I_D
C_LIN
K_A
VG
_X
I_P
FC
_A
MP
_R
C
I_P
FC
_A
MP
_R
C
I_P
FC
_A
MP
_R
C
I_U
/3.2
AI_
U_
X
I_U
_X
I_V
/3.4
AI_
V_X
I_V
_X
I_W
/3.6
AI_
W_
X
I_W
_X
PF
C_C
TR
L_M
CU
RE
F_2.5
V
TE
MP
TE
MP
TE
MP
_X
TE
MP
_X
U_0
U_H
U_
H1
U_
H1
U_L
U_
L1
U_
L1
VC
C_
15
V
VD
D_5V
VD
D_5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VD
D_
5V
VIN
_D
IV
VS
HU
NT
_0_N
VS
HU
NT
_0_P
VS
HU
NT
_P
FC
_N
VS
HU
NT
_P
FC
_P
V_0
V_H
V_
H1
V_
H1
V_L
V_
L1
V_
L1
W_0
W_H
W_
H1
W_
H1
W_L
W_
L1
W_
L1
PF
C-
Ove
r-C
urr
en
tC
om
para
tor
Sin
gle
Shunt
Curr
ent
Sensi
ng
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ent
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ng
PF
C
Enable
Circu
itry
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em
pera
tur
sense
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R25:
100k
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Card
Connect
or
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liary
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er
Connect
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V
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set:
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V
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12
34
56
78
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56
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rty.
V+
V-
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DA
1A
2A
3A
4A
5A
6A
7A
8A
9A
10
A11
A12
A13
A14
A15
A16
B1
B2
B3
B4
B5
B6
B7
B8
B9
B10
B11
B12
B13
B14
B15
B16
C40
.0/
CM
P2.O
G0C
H7
/C
MP
2.I
N-
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H6
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rd
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rte
rS
tage
A9
B1
3
B1
4
A1
0
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1
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2
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MC
440
0_V
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MC
130
0_V
1
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ER
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C8
0.2
3C
81.1
1/
C8
0.2
2C
81.0
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C8
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80.0
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G1C
H0
G0C
H5
G0C
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G1C
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Drive
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rd
DC
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44
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13
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H2
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4/
G2C
H0
G1C
H6
/G
1.O
RC
6
--
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 24 Revision 2.0, 2016-12-13
3.2 Component Placement
Figure 26 Component Placement
3,2
3,2
NTC
NTC
MOTOR
DC LINK
+-
L N PE
MAINS
MC
U
DR
V
PF
C
PFC control sel.
CT
RL
GN
DEnable
I-TRIP
ext.
TEMP
WV
U
Flyback converter
DriveCard
INVERTER STAGE
PFC
RE
CT
IFIE
R
LINE FILTER
15V
5V
400V -> 15V, 5V
CT
RL
BEMF SENSE
3 PHASE SHUNT CURRENT SENSE
3 Phase Power Inverter 750W V1.1
Au
xilia
ryP
ow
er
Bo
ard
Co
nn
ec
tor
1
18
Power
/FO
GN
D
DC LINK
GND
GND
A9
A10
A11
A12
B13
Connector
PE
3.15AFuse:
B14
GND
SO
FT
S
GN
D
PE
- +~ ~
X301
X201
X3
03
X3
02
X1
01
1
1234
1
4 5
8
1 2 3
12
3
11
6
a b
DIN
416
12-Q
/2
1
18
12
ADJ_401
ADJ_402 ADJ_403
B101
C101
C102
C103 C104
C105
C1
06
C1
07
C108
C109
C1
10
C1
11
C1
12
C113
C114
C115
C116
C117
C1
18
C119
C120C121
C201
C202
C2
03
C2
04
C2
05
C2
06
C2
07
C2
08
C209
C210C211
C212
C213
C214 C215
C216
C217
C301
C302
C3
03
C304
C3
05C306
C307
C3
08
C309
C310
C311
C3
12C
31
3
C3
14
C315
C3
16
C317
C318C319
CX101
CX102CX103
CY101 CY102
D1_OPT
D101
D102
D103
D1
04
D105
D106
D107
D201 D202 D203
D204 D205 D206
D3
01
D3
02
D3
03
IC1
01
IC1
02
IC103
IC104
IC105
IC201
IC202
JP101
JP102
JP103
JP201
JP
20
2
JP301
K101
L101
L102
LED101
LE
D3
01
Q101
Q102
Q103
Q3
01
R101
R102
R103
R104
R105
R106
R107
R108
R109
R110
R111
R112
R113
R114
R115
R116
R117
R1
18
R119
R120
R121
R122
R123
R1
24
R125
R126
R1
27
R128
R129
R1
30
R1
31
R132
R1
33
R1
34
R135
R136
R1
37
R138
R139R140
R1
41
R142
R201
R202R203
R204
R2
05
R2
06
R2
07
R208R209
R210
R211
R2
12
R2
13
R2
14
R2
15
R2
16
R2
17
R2
18
R2
19
R2
20
R221
R222
R223
R224
R225
R226
R227
R228 R229 R230R231
R232
R233
R234
R235
R236
R237
R238 R239 R240
R2
41
R242
R243
R244
R245
R3
01
R302
R3
03
R304
R305
R306
R3
07
R308 R309
R310 R311
R312
R3
13
R3
14
R315
R316 R317
R318 R319
R320
R321
R322 R323
R324 R325
R326
R3
27
R3
28
R3
29
R3
30
R331
R3
32
R3
33
R3
34
R3
35
R3
36
R337
R338R339
R340
R3
41
R3
42
R3
43
R344
R345
R346R347
R3
48
S201 S202 S203
S204 S205 S206
T1
01
TP
1
TP
2
TR101
U301
X101
X201
X301
X303
Fuse F101
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 25 Revision 2.0, 2016-12-13
3.3 Board Dimensions and Mounting Hole Positions
Figure 27 Board Dimensions and Mounting Hole Positions
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 26 Revision 2.0, 2016-12-13
3.4 Winding Rules for Transformer TR101
Figure 28 Winding Rules for Transformer TR101
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 27 Revision 2.0, 2016-12-13
3.5 Bill of Material (BOM)
Table 5 BOM of KIT_XMC750WATT_AK_V1 Board
Pos.No.
Qty Value Device Reference Des.
1 1 KBU1005_10A GBU4GBU4H B101
2 2 270u_450V CPOL-EUE10-30 C101, C102
3 1 TR3D476K025C0150_47u_25V_ESR0.15 C_EU_CASE_CCASE_D C103
4 2 100n_25V C_EU_CASE_C0603 C104, C112
5 2 68nF C_EU_CASE_C0603 C105, C107
6 1 330pF C_EU_CASE_C0603 C106
7 1 10nF C_EU_CASE_C0603 C108
8 1 1n_25V C_EU_CASE_C0603 C109
9 1 4n7_25V C_EU_CASE_C0603 C110
10 3 10u_25V C_EU_CASE_C1206 C111, C210, C211
11 1 2.2nF/630V C-EU075-042X103 C113
12 1 100uF/25V CPOL-EUE C114
13 1 220uF/10V CPOL-EUE C115
14 1 0.1uF/0805 C-EUC0805 C116, C120
15 1 33uF/35V CPOL-EUE C117
16 1 10u C_EU_CASE_C0805 C118
17 1 1nF/0805 C-EUC0805 C121
18 1 100n_25V C-EUC0603 C201
19 1 1u_25V C-EUC0805 C202
20 7 47pF C-EUC0603C204, C206, C208, C305,C308, C311, C314
21 1 10nF C-EUC0603 C209
22 3 10u_25V C_EU_CASE_C0805 C212, C214, C215
23 1 100nF C_EU_CASE_C0603 C213
24 1 100p_25V C_EU_CASE_C0603 C216
25 1 2n2_25V C_EU_CASE_C0603 C217
26 3 100n_10V C-EUC0603 C301, C304, C312
27 2 1u_10V C-EUC0603 C302, C313
28 1 100nF C-EUC0603 C306
29 3 10n C-EUC0603 C309, C315, C316
30 2 680n_400V CXXC22B10 CX101, CX102
31 1 220n_450V CXXC15B10 CX103
32 2 3n3_400V CYYC10B4 CY101, CY102
33 1 IDB10S60C IDT08S60C D101
34 3 US1J DIODE-DO-214AC D102, D104, D105
35 1 US1D DIODE-DO-214AC D103
36 7 1N4148 DIODE-SOD80CD107, D201, D202, D203,D204, D205, D206
37 3 5V1 DIODE-MINIMELF D301, D302, D303
38 1 Thermalloy 78075 HEATSINK101
39 1 FAN3100TSX FAN3100 IC101
40 1 ICE3PCS02 ICE3PCS02 IC102
41 1 ICE3RBR4765JG ICE3B0365JG IC103
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 28 Revision 2.0, 2016-12-13
42 1 TLVH431AI-DBZ TLV431A-DBZ IC104
43 1 LM2903 LM2903 IC105
44 1 MC33174D LM324D IC201
45 1 6EDL04I06NT 6ED003L06-F IC202
46 1 AZ762-1C-12D G2RE K101
47 1 Kaschke GP2002.153.807 KLL_GP2002.1 L101
48 1 WE-7448258022 WE-CMB_XL L102
49 2 5988070107F_Green LEDCHIPLED_0603 LED101, LED301
50 1 IKB20N60H3 IKB30N60H3 Q101
51 1 BCR108W BCR108W Q102
52 1 BCR148W BCR108W Q301
53 2 2M/200V/1% R-EU_R0805 R101, R106
54 3 330k/200V/1% R-EU_R0805 R102, R108, R114
55 3 330K/1% R-EU_M0805 R103, R107, R113
56 1 S14K275 S14K275 R104
57 1 10R R-EU_R0603 R105
58 3 47k R-EU_R0603 R109, R119, R132
59 1 330k/100V/1% R-EU_R0805 R110
60 1 B57364S409M NTC-B57364 R111
61 8 10k R-EU_R0603R112, R131, R134, R141,R227, R304, R342, R343
62 1 2k2/1% R-EU_R0805 R115
63 1 10K/1% R-EU_M0805 R116
64 1 10k/1% R-EU_R0603 R117
65 1 0R05_2W R-EU_R2512 R118
66 1 39k/1% R-EU_R0805 R120
67 1 68k/1% R-EU_R0805 R121
68 1 50R R-EU_R0603 R122
69 2 0R R-EU_R0805 R123, R128
70 2 0R R-EU_R0603 R124, R237
71 1 330K/1%/1206 R-EU_R1206 R125
72 1 68k R-EU_R0603 R126
73 1 100k/0603 R-EU_R0603 R129
74 1 33k2/1%/0603 R-EU_R0603 R130
75 7 0R/0603 R-EU_R0603R133, R308, R310, R316,R318, R322, R324
76 7 10R R-EU_R0805R135, R218, R219, R220,R228, R229, R230
77 1 22R/0805 R-EU_R0805 R136
78 1 5k6 R-EU_R0603 R137
79 2 1k5 R-EU_R0603 R138, R340
80 1 2R R-EU_R1206 R139
81 1 11k/1%/0603 R-EU_R0603 R140
82 1 200k R-EU_R0603 R142
83 6 12K R-EU_R0603R201, R202, R203, R213,R215, R217
84 2 20K R-EU_R0603 R204, R211
85 6 1K R-EU_R0603 R205, R206, R207, R212,
KIT_XMC750WATT_AK_V1XMC Motor Control Application Kit
Production Data
Board User's Manual 29 Revision 2.0, 2016-12-13
R214, R216
86 5 680R R-EU_R0603 R208, R209, R210, R303, R314
87 6 100R R-EU_R0805R221, R223, R225, R231,R233, R235
88 6 47k R-EU_R0805R222, R224, R226, R232,R234, R236
89 3 0R05/2W R-EU_R2512 R238, R239, R240
90 1 3K3 R-EU_R0603 R241
91 1 0R050/2W R-EU_R2512 R245
92 4 12k R-EU_R0603 R301, R306, R307, R321
93 6 1k R-EU_R0603R302, R305, R312, R315,R326, R348
94 1 8k2 R-EU_R0603 R313
95 3 100k R-EU_R0603 R320, R327, R331
96 9 330K/1% R-EU_R0805R328, R329, R330, R333,R334, R335, R337, R338, R339
97 1 3k R-EU_R0603 R332
98 1 100R R-EU_R0603 R336
99 1 2k R-EU_R0603 R341
100 1 NCP18WF104J03RB R-EU_R0603 R344
101 3 12K/1% R-EU_R0805 R345, R346, R347
102 6 IKD10N60R IKD04N60RS201, S202, S203, S204, S205,S206
103 1 BC857C BC857A-PNP-SOT23-BEC T101
104 1 3mH EPCOS_E16V TR101
105 1 AD8616AR AD8616AR U301
106 2 THT_MSTBA3 MSTBA3 X101, X201
107 1 THT_FAB32Q2 FAB32Q2 X301
108 1 PINHD-2X9 PINHD-2X9 X302
109 1 MSTBV2 MSTBV2 X303
w w w . i n f i n e o n . c o m
Published by Infineon Technologies AG
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