EVALM3102TTOBO1 - INFINEON TECHNOLOGIES AG

User Manual Please read the Important Notice and Warnings at the end of this document Revision 1.5

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AN2018

EVAL

T User Manual

EVAL-M3-102T User Manual

iMOTION™ Modular Application Design Kit

About this document

Scope and purpose

This User Manual provides an overview of the evaluation board EVAL-M3-102T including its main features, key

data, pin assignments and mechanical dimensions.

EVAL-M3-102T is an evaluation-board as part of the iMOTION™ Modular Application Design Kit. This board

features and demonstrates Infineon’s Advanced Motion Control Engine (MCE 2.0) technology for permanent

magnet motors drive over the full speed range.

The evaluation board EVAL-M3-102T was developed to support customers during their first steps designing

applications with running any permanent magnet motor via sensorless sinusoidal control.

Intended audience

This User Manual is intended for all technical specialists who know motor control and high power electronics

converter and this board is intended to be used under laboratory conditions.

Table of contents

About this document ....................................................................................................................... 1

Table of contents ............................................................................................................................ 1

1 Safety precautions ................................................................................................................. 3

2 Introduction .......................................................................................................................... 4

3 EVAL-M3-102T main features ................................................................................................... 5

3.1 Functional description ............................................................................................................................ 6

3.2 IMC102T-F064 pinout description........................................................................................................... 7

3.3 EVAL-M3-102T board specifications ....................................................................................................... 9

3.4 Pin assignment ...................................................................................................................................... 10

4 Getting Started with EVAL-M3-102T......................................................................................... 14

4.1 Setting up the system............................................................................................................................ 14

4.2 iMOTION™ development tools and software ....................................................................................... 16

4.2.1 MCEWizard setup overview .............................................................................................................. 16

4.2.2 MCEDesigner setup overview .......................................................................................................... 18

5 Hardware description of EVAL-M3-102T ................................................................................... 21

5.1 Motor Current feedback circuitry ......................................................................................................... 21

5.1.1 Motor Shunt configuration .............................................................................................................. 21

5.1.2 Motor External Current feedback configuration and calculation .................................................. 21

5.1.3 Motor Internal Current feedback amplifier gain configuration ...................................................... 23

5.2 PFC Hardware configuration ................................................................................................................ 24

5.2.1 PFC Topology selection ................................................................................................................... 24

5.2.2 PFC External Current feedback configuration and calculation ...................................................... 24

5.2.3 PFC Internal Current feedback amplifier gain configuration ......................................................... 25

5.2.4 AC Voltage sensing configuration .................................................................................................... 26

5.3 EVAL-M3-102T analog inputs and their MCEWizard setup ................................................................... 27

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Table of contents

5.3.1 DC bus sensing configuration .......................................................................................................... 28

5.3.2 NTC shutdown value calculation and configuration ...................................................................... 28

5.3.3 VSP analog input control mode and PGout configuration ............................................................. 30

5.4 Schematics overview ............................................................................................................................ 33

5.5 PCB layout overview ............................................................................................................................. 34

6 Bill of material ...................................................................................................................... 36

7 Reference ............................................................................................................................. 39

Revision history............................................................................................................................. 40

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Safety precautions

1 Safety precautions

In addition to the precautions listed throughout this manual, please read and understand the following

statements regarding hazards associated with development systems.

Table 1 Precautions

Attention: The ground potential of the EVAL-M3-102T system is biased to a negative DC

bus voltage potential. When measuring voltage waveform by oscilloscope, the scope’s

ground needs to be isolated. Failure to do so may result in personal injury or death and

equipment damage

Attention: Only personnel familiar with the drive and associated machinery should plan

or implement the installation, start-up and subsequent maintenance of the system.

Failure to comply may result in personal injury and/or equipment damage.

Attention: The surfaces of the drive may become hot, which may cause injury.

Attention: EVAL-M3-102T system contains parts and assemblies sensitive to Electrostatic

Discharge (ESD). Electrostatic control precautions are required when installing, testing,

servicing or repairing this assembly. Component damage may result if ESD control

procedures are not followed. If you are not familiar with electrostatic control procedures,

refer to applicable ESD protection handbooks and guidelines.

Attention: A control board, incorrectly applied or installed, can result in component

damage or reduction in product lifetime. Wiring or application errors such as under sizing

the motor, supplying an incorrect or inadequate DC supply or excessive ambient

temperatures may result in system malfunction.

Attention: Remove or connect this control board from or to the power drive. Wait three

minutes after removing power from the power drive to discharge the bus capacitors. Do

not attempt to service the drive until the bus capacitors have discharged to zero. Failure

to do so may result in personal injury or death.

Attention: EVAL-M3-102T system is shipped with packing materials that need to be

removed prior to installation. Failure to remove all packing materials which are

unnecessary for system installation may result in overheating or abnormal operating

condition.

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Introduction

2 Introduction

The EVAL-M3-102T evaluation board is a part of the iMOTION™ Modular Application Design Kit for drives

(iMOTION™ MADK). In order to run a motor, the mating power board is required to interface this evaluation

board.

The MADK platform is intended to use various power stages with different control boards. These boards can

easily be interfaced through the 30-pin iMOTION™ MADK M3, or the 30-pin iMOTION™ MADK M3 interface

connector. This board is equipped with 30-pin M3 connector and is intended for power factor correction and

single motor control only.

This evaluation board is designed to give comprehensible solutions of sensorless control of permanent magnet

motors over the full speed range. It provides a capable of 3-phase and type 3 of 2-phase modulation, a micro-

USB connector and on board debugger isolated by digital isolator, and UART interface.

The EVAL-M3-102T evaluation board is available from Infineon. The features of this board are described in the

main feature chapter of this document, whereas the remaining paragraphs provide information to enable the

customers to copy, modify and qualify the design for production according to their own specific requirements.

Environmental conditions were considered in the design of the EVAL-M3-102T, but it is not qualified regarding

safety requirements or manufacturing and operation over the whole operating temperature range or lifetime.

The boards provided by Infineon are subject to functional testing only.

Evaluation boards are not subject to the same procedures as regular products regarding Returned Material

Analysis (RMA), Process Change Notification (PCN) and Product Discontinuation (PD). Evaluation boards are

intended to be used under laboratory conditions by technical specialists only.

Figure 1 shows the evaluation board EVAL-M3-102T. This document explains the features and details of this board

as well as control IC which is IMC102T-F064.

Figure 1 Evaluation board EVAL-M3-102T

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EVAL-M3-102T main features

3 EVAL-M3-102T main features

EVAL-M3-102T is an evaluation control board for motor control applications. The kit demonstrates Infineon’s

motion control IC technology.

Main features of the IMC102T-F064 Motion Control IC are:

•MCE (Motion Control Engine) as ready-to-use solution for variable speed drives

•Field oriented control (FOC) for permanent magnet synchronous motor (PMSM)

•Space vector PWM with sinusoidal commutation and integrated protection features

•Current sensing via single or leg shunt

•Sensorless operation

•Active boost or totem pole PFC control integrated

•Various serial communication interfaces (UART, I2C, SPI)

•Multiple motor parameter support

•3.3V (default) or 5V VDD power supply

•Flexible host interface options for speed commands: UART, I2C, SPI, PWM or analog signal

•Support for IEC 60335 (‘Class B’)

•Scalable package options

The evaluation board characteristics are:

•Complete kit for running any permanent magnet motor via sensorless sinusoidal control

•3.3V (default) or 5V VDD power supply

•Micro-USB connector and on-board debugger isolated by digital isolator

•Capable of 3-phase and type 3 of 2-phase modulation

•RoHS complaint

•PCB size is 65 x 45 mm

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3.1 Functional description

Figure 2 shows a typical motor control application block diagram using the IMC102T-F064. The IMC102T-F064

provides a built-in closed loop sensorless control algorithm using the unique flexible Motion Control Engine (MCE)

for permanent magnet motors and additionally a boost or totem pole power factor correnction (PFC). The MCE™

consists of a collection of control elements, motion peripherals, a dedicated motion control sequencer and

internal memory to map internal signal nodes. IMC102T-F064 also employs a unique single shunt current

reconstruction circuit in addition to leg shunt current sensing circuit to eliminate additional analog/digital

circuitry.

3-phase

inverter

Current Sensing

single/ leg shunt

Power Factor

Correction

(boost/totem pole)

Host

Communication

Analog

USB

IPM based or discrete MADK power board

Gate driver

Power

supply

M1 or M3 standard

Isolated

On-Board

Debugger

15V

3.3V

PWM

EVAL-M3-102T

MADK platform connector

Passive

EMI

Filter

VD C

Figure 2 Typical Application Block Diagram Using IMC102T-F064

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3.2 IMC102T-F064 pinout description

The main part of the EVAL-M3-102T MADK control board is the IMC102T-F064 iMOTION™ motor control IC.

Figure 3 depicts the pinout of the IMC102T-F064 IC. IMC102T-F064 comes in a 12mm x 12mm 64-pin LQFP

package.

IMC102T

F064

(Top View)

VSS

VDD

PAR0

PAR1

PAR2

PAR3

VSP

REFW

IPFC0

NTC

VDC

REFV

REFU

VAC2

VAC1

IPFCREF

IPFCTRIP

VSS

VDD

PWMUL

PWMUH

PWMVL

PWMVH

PFCG0

PFCG1

PGOUT

LED

VDD

PWMWH

PWMWL

TXD1

RXD1

TXD0

RXD0

DUTYFREQ

DIR

VDD

VSS

Figure 3 Pinout of IMC102T-F064

The pin type is specified as follows:

•I — digital input

•O — digital output

•AIN — analog input

•“-”— do not have any signal assigned

Note: Pins that do not have any signal assigned are reserved for future use. These pins should be left

unconnected and neither be connected to ground nor to the positive supply.

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Table 2 lists the available pins of IMC102T-F064 with short descriptions. For more detailed information, please

refer to the datasheet or User Manual for iMOTION™ IMC102T-F064 motor control IC.

Table 2 IMC102T-F064 pinout description

Pin# Type Pin Name Description

1 Power VSS ground

2 Power VDD VDD supply power

3 I PAR0 Parameter page select bit 0

4 I PAR1 Parameter page select bit 1

5 I PAR2 Parameter page select bit 2

6 I PAR3 Parameter page select bit 3

7 - - Not used

8 - - Not used

9 AIN VSP Analog speed reference input

10 AIN REFW Itrip phase W reference

11 AIN IW Phase W current leg sensing

12 AIN IPFC0 PFC current sensing

13 AIN NTC external temp sense input

14 AIN VDC DC bus sensing input

15 AIN IV Phase V current leg sensing

16 AIN REFV Itrip phase V reference

17 AIN REFU Itrip phase U reference

18 AIN IU Phase U leg sensing or single

shunt current sensing

19 AIN VAC2 VAC sense input line2

20 AIN VAC1 VAC sense input line1

21 AIN IPFCREF Itrip PFC reference input

22 AIN IPFCTRIP Itrip PFC input

23 Power VSS ground

24 Power VDD VDD supply power

25 Power VDD VDD supply power

26 - - Not used

27 - - Not used

28 - - Not used

29 O PWMUL motor PWM phase U low side

30 O PWMUH motor PWM phase U high side

31 O PWMVL motor PWM phase V low side

32 O PWMVH motor PWM phase V high side

33 O PWMWL motor PWM phase W low side

34 O PWMWH motor PWM phase W high side

35 Power VDD VDD supply power

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36 I GK Motor gate kill input

37 - - Not used

38 - - Not used

39 - - Not used

40 - - Not used

41 O LED Status LED

42 O PGOUT Pulse output

43 O PFCG1 PFC gate driver1

44 O PFCG0 PFC gate driver0

45 - - Not used

46 - - Not used

47 - - Not used

48 - - Not used

49 Power VSS ground

50 Power VDD VDD supply power

51 - - Not used

52 I DIR Direction input

53 - - Not used

54 - - Not used

55 I DUTYFREQ Duty/Freq input for speed input

56 - - Not used

57 I RXD0 UART0 Receive for SW download

58 O TXD0 UART0 Transmit for SW download

59 - - Not used

60 - - Not used

61 - - Not used

62 - - Not used

63 I RXD1 UART1 Receive for host interface

64 O TXD1 UART1 Transmit for host interface

3.3 EVAL-M3-102T board specifications

Table 3 depicts the important specifications of the evaluation board EVAL-M3-102T.

Table 3 EVAL-M3-102T board specifications

Parameters Values Conditions / comments

Host Interface (Not isolated)

UART(TXD1, RXD1) 0 - VDD Serial port 1 typical 57600 Bps

AIN 0 - VDD analog input

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Parameters Values Conditions / comments

DIN 0 - VDD digital input

DOUT 0 - VDD digital output

FG 0 - 30V digital output with open drain

structure

Input

VDD 3.3V (default), 5V Controller supply voltage

DC Bus

DC Bus Scaling 8.20 counts/V 13.3kΩ resistor on control board,

and 2MΩ resistor on power board

DC Bus sensing range 499.54V max

Current feedback

Motor Internal Current Feedback

Amplifier Gain

1, 3, 6, 12 Configured by MCEWizard

Motor Current sensing device 0 – VDD/Gain Single shunt resistor

Leg shunt resistor

Motor Current Op-amp

Configuration

Non-Inverting default setting

Motor Current External

Amplification Gain

0.833

PFC Current sensing device 0 – VDD/Gain

PFC Current Op-amp Configuration Non-Inverting default setting

PFC Current External Amplification

Gain

0.923

Resolution 12-bit PCB design may reduce the

resolution

Latency 1 pwm cycle

Protections

NTC Temperature shutdown value 0 - VDD (configured by

MCEWizard)

PCB characteristics

Material FR4, 1.6MM thickness

Copper thickness = 1oz (35um)

Dimension 65mmx45mm

System environment

Ambient temperature -40 - 105°C

3.4 Pin assignment

Essential information about the connections of the EVAL-M3-102T evaluation board is described below.

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Table 4 provides the pin assignments of the iMOTION™ MADK-M3 30 pins interface connector J1. This connector

is the interface to the power board.

Table 4 J1- iMOTION™MADK-M3 30 pins interface connector for control board

Pin Nr. Pin Details

1 PWMUH 3.3 V compatible logic output for high side gate driver-Phase U

2 GND Ground

3 PWMUL 3.3 V compatible logic output for low side gate driver-Phase U

4 GND Ground

5 PWMVH 3.3 V compatible logic output for high side gate driver-Phase V

6 +3.3V On board 3.3 V supply

7 PWMVL 3.3 V compatible logic output for low side gate driver-Phase V

8 +3.3V On board 3.3 V supply

9 PWMWH 3.3 V compatible logic output for high side gate driver-Phase W

10 IU+ Shunt voltage phase U

11 PWMWL 3.3 V compatible logic output for low side gate driver-Phase W

12 IU- Ground

13 GK Gate kill signal – active low when over current is detected

14 DCBSENSE DC bus positive voltage, scaled in 0-3.3 V range by a voltage divider

15 VTH Thermistor input

16 IV+ Shunt voltage phase V

17 IV- Ground

18 IW+ Shunt voltage phase W

19 IW- Ground

20 VCC Defined for 15 V Power Supply (not used in this board)

21 PFCG0 3.3 V compatible logic output for PFC gate driver0

22 GND Ground

23 PFCG1 3.3 V compatible logic output for PFC gate driver1

24 +3.3V On board 3.3 V supply

25 - Not used

26 DCBSENSE DC bus positive voltage, scaled in 0-3.3 V range by a voltage divider

27 VAC+ AC Voltage input1 with high resistive input

28 VAC- AC Voltage input2 with high resistive input

29 - Not used

30 IPFC- Shunt voltage for PFC

Table 5 includes the detail of UART connectors.

Table 5 J2- UART Connector

Pin Name Pin Name Connectors

1 TXD0

Serial port 0 Output, IMC102T

T064

ransmit data

to master controller

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Pin Name Pin Name Connectors

2 RXD0 Serial port 0 Input, IMC102T-T064 receive data from master controller

3 +3.3V

+3.3V

power

supply

4 GND Ground

5 GND

Ground

6 +3.3V

+3.3V

power

supply

7 TXD1

Serial port

Input, IMC102T

T064

ransmit data

to master controller

8 RXD1

Serial port

Output, IMC102T

T064

eceive data

from master controller

Table 6, Table 7, Table 8, Table 9, Table 10, Table 11 and Table 12 include the details of test signal pin

connectors.

Table 6 Digital signal test pins J3

Pin Name Pin Name Connectors

1 - Not used

2 PAR3 Parameter page select bit 3

3 - Not used

4 PAR1 Parameter page select bit 1

5 PAR2 Parameter page select bit 2

6 PAR0 Parameter page select bit 0

Table 7 Digital signal test pins J4

Pin Name Pin Name Connector

1 - Not used

2 - Not used

3 - Not used

4 - Not used

Table 8 Digital signal test pins J5

Pin Name Pin Name Connector

1 - Not used

2 - Not used

3 - Not used

4 - Not used

Table 9 Digital signal test pins J6

Pin Name Pin Name Connector

1 - Not used

2 - Not used

3 DIR Direction input

4 - Not used

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Table 10 VSP signal test pins J7

Pin Name Pin Name Connector

1 +3.3V +3.3V power supply

2 VSP Analog speed reference input

3 GND Ground

Table 11 Digital signal test pins J8

Pin Name Pin Name Connector

1 PGOUT PG (Pulse Generation) output

2 DUTYFREQ Duty/Frequency input for speed input

Table 12 FG signal test pin J9

Pin Name Pin Name Connector

1 FG open drain output for speed as shown in Figure 30

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Getting Started with EVAL-M3-102T

4 Getting Started with EVAL-M3-102T

In order to run the motor system, a combination of the iMOTION™ MADK control board (EVAL-M3-102T) and the

matching MADK power board (with M3 connector) is required. The iMOTION™ Software Tools MCEDesigner and

MCEWizard are also required in order to initialy setup the system, as well as to control and fine-tune the system

performance to match users exact needs. This chapter provides more details on setting up the system and

getting started with iMOTION™ MADK development platform.

4.1 Setting up the system

EVAL-M3-102T consists of several functional groups which enable out-of-the-box, fully functional motor control

system combined with additional interfaces and test points for more advanced use cases. Figure 4 shows the

functional groups of the EVAL-M3-102T evaluation board.

Figure 4 Functional groups of the EVAL-M3-102T evaluation board’s top side

After downloading and installing the iMOTION™ PC Tools (MCEWizard and MCEDesigner), following steps needs

to be executed in order to run the motor. Refer to chapters 0 and 4.2.2 as well as MCEWizard and MCEDesigner

documentation for more information.

1. Get the latest ”IMC102T-F064 MCE Software Package” available on www.infineon.com/imotion-software

web page.

2. Connect PC-USB connector on the on-board-debugger to the PC via USB cable.

3. Connect EVAL-M3-102T’s M3 30-pin interface connector (J1) to power board (For example EVAL-M3-

CM615PN, see Figure 5).

4. Use MCEWizard to enter the target motor’s system and operating parameters, as well as evaluation board’s

hardware parameters, which will then be used to calculate controller’s digital parameter set representing

complete motor drive system. First click “Calculate” button on the “Verify & Save Page” and then save the

board debugger

2. USB Connecter (X101)

3. Test Signal Pin Connecter

(J8)

4. Test Signal Pin Connecter

(J5)

5. IMC102T-F064 iMOTION™

motor control IC

6. iMOTION™ MADK-M3 30

pins interface connector

(J1)

7. Test Signal Pin Connecter

(J3)

8. iMOTION™ Link connector

(J2)

9. VSP Signal Pin Connecter

(J7)

10. Test Signal Pin Connecter

(J4)

11. Test Signal Pin Connecter

(J6)

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drive parameter set into your project directory by clicking “Export to Designer file (.txt)”. Saved Drive

System Parameter File will be later used by the MCEDesigner. Refer to Chapter 4.2.1 or MCEWizard User

Guide for more details.

5. Connect motor phase outputs to the motor.

6. Connect AC power to power input connector and power on system.

7. Start MCEDesigner tool and open MCEDesigner default configuration file (.irc) for IMC102T-F064 controller

(IMC102T_Vxxx.irc) by clicking “File” > “Open”. IMC102T_Vxxx.irc file is included in ”IMC102T-F064 MCE

Software Package” downloaded in step 1.

8. MCEDesigner should automatically connect to the EVAL-M3-102T control board using default COM port

(Indicated by green circle next to “COMx Up” status in the bottom frame of the MCEDesigner GUI). If it

cannot establish the connection, change COM port by doing following steps: (“System” window active) >

Preferences > Connection > Connect using (Chose one of the other available COM ports from the drop-down

menu).

9. In case the IMC102T-F064 IC on the EVAL-M3-102T is empty (not programmed), which will be indicated by

the pop-up window message after connecting to the MCEDesigner, then use following steps to program the

firmware and the system parameters into the internal SRAM of iMOTION™ IC: Click “Tools” > “Programmer”

and select “Program Firmware and Parameters”. Browse and select the IMC102T-F064_A_Vxxx.ldf file which

was included in the IMC102T-F064 MCE Software Package” downloaded in step 1. Then browse and select

the System Drive Parameters .txt file created in step 4. See chapter MCEDesigner setup overview 4.2.2 for

more details.

10. In case the IMC102T-F064 IC firmware has already been loaded, use following steps to program the system

parameters into the internal SRAM of iMOTION™ IC: Click “Tools” > “Programmer” and select “Program

Parameters”. Browse and select the System Drive Parameters .txt file created in step 4. See chapter

MCEDesigner setup overview 4.2.2 for more details.

11. Start the motor by clicking the green traffic light button in the control bar.

Figure 5 System connection example using EVAL-M3-102T and EVAL-M3-CM615PN

USB

onnector

Motor

hase

utput

AC Power

nput

PFC

Inductor

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4.2 iMOTION™ development tools and software

The iMOTION™Development Tool installers for MCEDesigner and MCEWizard are available for download via

Infineon iMOTIONTM website (http://www.infineon.com/imotion-software). All supported tools and software

variants are listed there. Please visit this page periodically to check for tool/software updates.

Isolated on-board debugger provides the USB to UART bridge between the PC and the target iMOTION™ device

with 1kV DC galvanic isolation between the motor drive system (hot side) and the PC/debugger (cold) side. On-

board debugger uses the SEGGER J-Link driver for UART communication with IMC102T-F064. J-Link driver will

be installed during the MCEDesigner installation. In case the driver is not installed properly, please go to

SEGGER J-Link website to download and install the latest J-Link “Software and Documentation pack for

Windows”.

4.2.1 MCEWizard setup overview

After installing the MCEWizard, the shortcut for MCEWizard appears on the Windows desktop. Double click the

shortcut to open the MCEWizard and configure the parameters for evaluation boards or motor. Figure 6 shows

the “Welcome Page” for MCEWizard, where the MADK control board or power board can be selected through

the pull-down list. Infineon keeps releasing new MADK controller and power boards. Therefore, it could happen

that some of the newest power boards are not pre-configured in the MCEWizard tool and cannot be selected

through the pull-down menu. In that case, the user should select any other power board (as similar as possible)

and follow the MCEWizard setup steps by entering the parameter values which are specific to the chosen board.

Make sure both “I have modified the circuit board” and “Enable advanced question” checkmarks are selected.

Please refer to the User Manual of the corresponding power board for additional information.

After selecting the MADK control and the power board, start the MCEWizard system setup procedure by clicking

the “Next” button in the right bottom corner as shown in Figure 6.

Figure 6 Welcome Page of MCEWizard

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iMOTION™ MADK system enables users to easily test different combination of control and power board with

their motors. User should be familiar with the system level parameters which are related to the motor used.

There is a very limited number of parameters which are specific to the control board or power board hardware.

Table 13 provides the MCEWizard setup overview for hardware related parameters. Similar tables will be

available in each power board’s User Manual. Combination of this table and the corresponding table of the

power board provides enough information to setup the MADK-based motor drive system in shortest time.

Table 13 MCEWizard setup overview table

Page Parameter Value Comment

Welcome Page Power Board selecting MADK power board name If no, select similar

power board to modify

Options Page Motor 1 Shunt Configuration Refer to the power board App Note

Question 3 Controller Supply Voltage Refer to the power board App Note VDD is 3.3V by default

Question 19 Max DC Bus Voltage Refer to the power board App Note

Question 23 DC Bus Sensing High Resistor Refer to the power board App Note

Question 24 DC Bus Sensing Low Resistor 13.3 kOhm

Question 54 NTC Temperature Shutdown

value

Calculated as the Section 5.3.2 Refer to the power

board App Note

Question 63 GateSense Low-Side Devices Refer to the power board App Note High is true by default

Question 64 GateSense High-Side Devices Refer to the power board App Note High is true by default

Question 69 Motor 1 Current Input Calculated as the Section 5.1.2

Question 83 PFC Topology Refer to the power board App Note Boost or Totem-Pole

Question 85 PFC Current Input Calculated as the Section 5.2.2

Question 92 PFC Gate Driver Polarity High

Side

Refer to the power board App Note High is true by default

Question 93 PFC Gate Driver Polarity Low

Side

Refer to the power board App Note High is true by default

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After all the MCEWizard questions are answered, the “Verify & Save Page” will be shown as in Figure 7.

Figure 7 Verify and Save page for MCEWizard

Click “Calculate” button and “Export to Designer File (.txt)” button to save the parameter file which will be used

by the MCEDesigner in the next steps.

4.2.2 MCEDesigner setup overview

After installing MCEDesigner installer, there is a shortcut for MCEDesigner on Windows desktop. Double click on

the shortcut to open MCEDesigner and then open “IMC102T_xx.irc” file (which was included in the“IMC102T-

F064 MCE Software Package” installed earlier, as instructed in Chapter 4.1) shown in Figure 8.

Figure 8 MCEDesigner’s Main Display for EVAL-M3-102T

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MCEDesigner programmer function can be used to program IMC101T-T038 firmware and/or System

parameters. To call this function, click on “Tools” menu and then select “Programmer” in the pull down list.

The pop-up window “Program IMC controller” will show up as in Figure 9.

To program both firmware and Drive System Parameters into IMC102T-F064 (which can happen when

programming for the first time the brand new devices with default factory setting, or when the new version of

iMOTION™ firmware is being downloaded), first click on the “Program Firmware and Parameter” radio button in

the “Program IMC controller” pop-up window. After that, select the Drive System Parameter file created using

MCEWizard by clicking on the “Browse…” button at the end of the “Program Parameter File” row, and then also

select the the IMC102T-F064_A_Vxxx.ldf file (which was included in the “IMC102T-F064 MCE Software Package”)

by clicking on the “Browse…” button at the end of “Program Firmware File” row. Finally, click on the “Start”

button to program the parameter file into the IMC102T-F064 IC.

Figure 9 Program Firmware and Parameter in “Program IMC Controller” pop-up window

To program only Drive System Parameter file into IMC102T-F064, click on “Tools” menu and select

“Programmer” in the pull down list. The pop-up window “Program IMC controller” will show up as in Figure 10.

Click on the “Program Parameters” radio button (this is the default option), and then select the Drive System

Parameter file created using MCEWizard by clicking on “Browse…”. Finally, click on the “Start” button to

program the parameter file into the IMC102T-F064 IC.

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Figure 10 “Program IMC Controller” pop-up window

After Drive System Parameter file has been programmed into IMC102 controller, and the motor drive system is

powered, the MCEDesigner can be used to start/stop the motor, display motor current traces, change the motor

speed, modify drive parameters and many other functions. Please refer to the MCEDesigner documentation for

more details.

Note: On-board Debugger portion of EVAL-M3-102T is galvanically isolated from the controller portion

and the attached power board. In order to program the parameters or firmware to the IMC102T-

F064 controller, the 3.3V DC voltage needs to be supplied to the controller portion of the EVAL-M3-

102T. This voltage can either be supplied by the power board (MADK power boards are designed to

supply the 3.3V to the control board through M1 or M3 connector) or by feeding the 3.3V DC voltage

to the control board through some of the available 3.3V access/test points if the power board is not

attached to the EVAL-M3-102T control board.

All latest firmware file for different type of iMOTIONTM control ICs are available for download via Infineon

iMOTIONTM website (http://www.infineon.com/imotion-software).

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5 Hardware description of EVAL-M3-102T

This chapter covers hardware design of the EVAL-M3-102T in more details. To enable users to make the EVAL-

M3-102T evaluation board a basis for a new development or modification of their own systems, all necessary

technical data like schematics, layout and components are also included in this chapter.

5.1 Motor Current feedback circuitry

5.1.1 Motor Shunt configuration

Both single shunt and leg shunt topologies are supported by the EVAL-M3-102T control board. The user needs

to make sure that the shunt configuration matches with power board hardware configuration. Please refer to

the power board User Manual for details. The shunt configuration can be changed in MCEWizard by clicking and

selecting in the pull down list marked with red box as shown in Figure 11.

Figure 11 Shunt Configuration

5.1.2 Motor External Current feedback configuration and calculation

The shunt resistance Rsh value can be found in the schematics or User Manual for the power board (For

example, the leg shunt resistors are 30mΩ for EVAL-M3-CM615PN and 100mΩ for EVAL-M3-TS6-606).

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The current input value is product of the shunt resistance in milliohms and gain of External current sense

amplifier as shown in Figure 12.

Figure 12 Current shunt feedback and sample timing

Figure 13 depicts IU+ current feedback sensing circuity on EVAL-M3-102T evaluation board. Please note that the

default external amplification gain is less than 1 for current sense in this evaluation board.

Figure 13 The part of Current feedback on the EVAL-M3-102T evaluation board

Based on the principle of Kirchhoff's voltage law,

≈≈( − ∗)∗

 + + ∗ =

 +  +

 +  ∗

  =

 +  =5

6

Based on this calculation, the current input for the MADK combination of EVAL-M3-102T and EVAL-M3-CM615PN

is 25 mV/A, and for the combination of EVAL-M3-102T and EVAL-M3-TS6-606 it is 83.3 mV/A. Please use same

procedure to calculate the current input for other combinations of MADK boards and enter it into MCEWizard.

R12

100ohm 1/10W 1%

R13

2Kohm 1/10W 1%

R10

10Kohm 1/10W 1%

C21

220pF

+3.3V

IU+

Rsh

Ish

iMOTION

Controller

V1 V2

Current shunt resistor

on power board

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Figure 14 Current feedback configuration in MCEWizard for EVAL-M3-102T and EVAL-M3-CM615PN

5.1.3 Motor Internal Current feedback amplifier gain configuration

The iMOTION™ controller on this board has the internal current feedback programmable gain amplifier which

has four gain settings: 1x, 3x, 6x and 12x.

The internal Current feedback amplifier gain can be configured in MCEWizard as shown in Figure 15.

Figure 15 Internal current feedback amplifier gain configuration

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5.2 PFC Hardware configuration

5.2.1 PFC Topology selection

The EVAL-M3-102T control board applies to both of PFC algorithms, boost mode and totem pole. The user

needs to make sure that the topology configuration matches with power board hardware configuration. The

topology configuration can be changed in MCEWizard by clicking and selecting in the pull down list marked

with red box as shown in Figure 16.

Figure 16 The PFC topology choose in MCEWizard for EVAL-M3-102T and EVAL-M3-CM615PN

5.2.2 PFC External Current feedback configuration and calculation

Please refer to the schematic diagram of power board for the shunt resistance value (For example, the shunt

resistors are 30mΩ for EVAL-M3-CM615PN and 100mΩ for EVAL-M3-TS6-606).

The current input value is product of the shunt resistance in milliohms and gain of External current sense

amplifier as shown in Figure 17.

Figure 17 PFC Current shunt feedback and sample timing

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5.2.3 PFC Internal Current feedback amplifier gain configuration

Figure 18 depicts IPFC- current feedback sensing circuity on EVAL-M3-102T evaluation board. Please note that

the default external amplification gain is less than 1 for current sense in this evaluation board.

Figure 18 The PFC Current feedback circuit for EVAL-M3-102T evaluation board

Based on the principle of Kirchhoff's voltage law,

≈≈( + ∗)∗

+

− ∗ =

+  −

+  ∗

  =

+  =12

13 

Based on this calculation, the current input for the MADK combination of EVAL-M3-102T and EVAL-M3-CM615PN

is 27.69 mV/A, and for the combination of EVAL-M3-102T and EVAL-M3-TS6-606 it is 92.31 mV/A. Please use same

procedure to calculate the current input for other combinations of MADK boards and enter it into MCEWizard.

Figure 19 The PFCTRIPREF Circuit on the EVAL-M3-102T evaluation board

The PFC’s overcurrent protection circuit is shown in Figure 18 and Figure 19. The IPFCTRIP_Peak equal to 6.347A for

EVAL-M3-102T and EVAL-M3-CM615PN evaluation board only.

1Kohm 1/10W 1%

12Kohm 1/10W 1%

C15

220pF 10V

3.3V

IPFC-

R25

1Kohm 1/10W 1%

IPFC0

iMOTION

Controller

Rsh

Ish

Current shunt resistor

on power board

V3 V4

IPFC- IPFC

24Kohm 1/10W 1%

470 ohm 1/10W 1%

C16

4.7nF 10V

3.3V

PFCTRIPREF

IPFC0

iMOTION

Controller

IPFC

PFCTRIPREF

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The calculation formula is as follows,

 = − 󰇡

+−

+󰇢



5.2.4 AC Voltage sensing configuration

Figure 20 shows the schematic of EVAL-M3-102T evaluation board with VAC sense.

Figure 20 The AC Voltage sensing schematic

There are two AC voltage sensing modes in MCEWizard, differential mode and single-ended as shown in Figure

21. The default is differential mode for EVAL-M3-102T evaluation board.

Figure 21 Analog inputs on the EVAL-M3-102T evaluation board

C20

4.7nF 10V

R11

15Kohm 1/10W 1%

VAC+

R16

15Kohm 1/10W 1%

C22

4.7nF 10V

VAC-

VAC1

VAC2

AC Voltage Sensing input1

AC Voltage Sensing input2

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The low side resistor R11 or R16 for the AC voltage sensing resistor divider on the controller board EVAL-M3-

102T is 15kΩ, and should be configured in MCEWizard as shown in Figure 22. For the high side resistor value,

please refer to the User Manual of the corresponding power board.

Figure 22 AC Voltage sensing configuration in MCEWizard

5.3 EVAL-M3-102T analog inputs and their MCEWizard setup

Besides current sensing inputs, IMC102T-F064 provides number of analog inputs for different system functions.

Figure 23 depicts analog inputs of the IMC102T-F064 except current sensing inputs.

Figure 23 Analog inputs on the EVAL-M3-102T evaluation board

4.7nF 10V

13.3kohm 1/10W 1%

DCB

4.87kohm 1/10W 1%

C14

10nF 10V

3.3V

VTH

2.2nF 10V

VSP

NTC

VDC

VSP

DC Bus Voltage Sensing input

External Temperature Sense input

VSP Analog Voltage Control input

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5.3.1 DC bus sensing configuration

The low side resistor R4 for the DC bus sensing resistor divider on the controller board EVAL-M3-102T is 13.3kΩ,

and should be configured in MCEWizard as shown in Figure 24. For the high side resistor value, please refer to

the User Manual of the corresponding power board.

Figure 24 DC bus sensing configuration in MCEWizard

5.3.2 NTC shutdown value calculation and configuration

External NTC Temperature shutdown value can be calculated as shown below and configured in MCEWizard as

shown in Figure 25. For pull-up resistor on evaluation power board and NTC value, please refer to the power

board’s User Manual. The value of pull-up resistor on EVAL-M3-102T is 4.87 kΩ (see Figure 23).

  =    ∗   

    +   

  =@ 

@  +  

For example, for EVAL-M3-CM615PN, the pull-up resistor on the power board is 9.1kΩ. So the total pull-up

resistance calculates to be 3.172kΩ.

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The typical value of RNTC at 100°C is 5.388kΩ for IPM IFCM15P60GD which is used in EVAL-M3-CM615PN. If the

setting temperature is 100°C, the shutdown value should be 2.08V.

Figure 25 External temperature sense input configuration in MCEWizard

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5.3.3 VSP analog input control mode and PGout configuration

VSP analog input control mode can be configured in the options page for MCEWizard by clicking and selecting

in the pull down list marked with red box as shown in Figure 26.

Figure 26 Analog VSP control input mode configuration

There are three input thresholds (percentage of controller supply voltage VDD) used to define the relationship

between VSP input voltage and TargetSpeed.

1. T1 (Input threshold for motor start): if the VSP analog voltage is above this threshold, motor will start

2. T2 (Input threshold for motor stop): if the VSP analog voltage is below this threshold, motor will stop

3. T3 (Input threshold for Max RPM): if the VSP analog voltage is higher or equal to this threshold, TargetSpeed

will be 16384 which is Max RPM.

Figure 27 The relationship between VSP Analog Input voltage and TargetSpeed

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After configured the Analog VSP control input mode, the three input thresholds can be set up in the input text

box in MCEWizard marked with red box as shown in Figure 28, or in the pages for Question 9, Question10 and

Question 11.

Figure 28 Three input thresholds configuration for VSP analog input control mode

For Analog VSP control input mode, the motor speed can be calculated by measuring the frequency of PGOUT

signal output of control IC IMC102T-F064. And the pulse generation number per revolution for motor can be

configured in MCEWizard as shown in Figure 29.

Figure 29 PG Pulse Per Revolution configuration

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Motor speed can be calculated as shown below,

 ()= ()∗

  

For example, PGOUT frequency is about 80 Hz and Pulse per Revolution is 6, and then the motor speed will be

800 RPM.

By default, VDD is 3.3V for EVAL-M3-102T. The input of VSP and PGOUT (pulse generation output) should be

limited within the voltage range of 0 and 3.3V. While for some application, PGOUT should be connected to

speed measurement circuit. The evaluation board EVAL-M3-102T provides FG (Frequency Generation) signal

with an open drain structure controlled by PGOUT as shown in Figure 30. And FG signal can be pull up to 30V.

Figure 30 VSP Input Connector and level shit schematic for FG

CON1*3

3.3V

VSP

GND

IRLML2030

R26

100ohm 1/10W 5%

PGOUT

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5.4 Schematics overview

Figure 31 shows the schematic of EVAL-M3-102T evaluation board with IMC102T-F064 controller.

Figure 31 The schematics for the EVAL-M3-102T evaluation board

Figure 32 shows the signal test pin connector schematic for EVAL-M3-102T.

4.7nF 10V

2.2nF 10V

C23 4.7nF 10V

C5 0.1uF 10V

C4 0.1uF 10V

0.1uF 10V C2

0.1uF 10V

13.3kohm 1/10W 1%

DCB

4.87kohm 1/10W 1%

C14 10nF 10V

3.3V

C11

0.1uF 10V

C10

0.1uF 10V

PWMUH

PWMVH

PWMWH

PWMUL

PWMVL

PWMWL

Gatekill

3.3V

GND

0.1uF 10V

PFCG0

PFCG1

LED2

GREEN

LED1

RED

R2 9.1Kohm 1/10W 5%

R3 2Kohm 1/10W 5%

3.3V

VTH

2.2nF 10V

47ohm 1/10W 5%

Duty/Freq_input

P0410

P0411

P0400

P0401

P0402

P0403

P0301

P0302

P0303

P0304

P0004

P0005

P0006

P0007

P0008

P0010

P0011

P0013

VSP

TXD0

RXD0

RXD1

TXD1

PGOUT

DIR

IMC102T-F064

DCB

TP9

VTH

TP10

TP11REFW

REFV

IPFC

VAC1

REFU

REFV

REFW

PWMWH

PWMWL

R8 24Kohm 1/10W 1%

470 ohm 1/10W 1%

C16 4.7nF 10V

3.3V

IPFC

PFCG1

PFCG0

Gatekill

VAC2

P0106

P0107

P0108

IRLML2030

R26

100ohm 1/10W 5%

GND

PWMUL

PWMUH

PWMVL

PWMVH

VSS

VDD

PAR0

PAR1

PAR2

PAR3

P0410

P0411

VSP

REFW/AIN1

IW/AIN2

IPFC0

NTC

VDC

IV/AIN6

REFV/AIN7

REFU/AIN8

VAC2

VAC1

PFCTRIPREF

PFCITRIP

VSS

VDD

P0108

P0107

P0106

PWMUL

PWMUH

PWMVL

PWMVH

PWMWL 33

PWMWH 34

VDD 35

GK 36

P0301 37

P0302 38

P0303 39

P0304 40

LED 41

PGOUT 42

PFCG1 43

PFCG0/P0003 44

P0004 45

P0005 46

P0006 47

P0007 48

VSS 49

VDD 50

P0008 51

DIR 52

P0010 53

P0011 54

DUTYFREQ 55

P0013 56

RXD0 57

TXD0 58

P0400 59

P0401 60

P0402 61

P0403 62

RXD1 63

TXD1 64

IMC102T

PFCTRIPREF

R12

100ohm 1/10W 1%

R13

2Kohm 1/10W 1%

R10 10Kohm 1/10W 1%

C21 220pF 10V

3.3V

IU+

C17 220pF 10V

C24 220pF 10V

R18

100ohm 1/10W 1% R19

2Kohm 1/10W 1%

R20

100ohm 1/10W 1% R21

2Kohm 1/10W 1%

R14 10Kohm 1/10W 1%

R17 10Kohm 1/10W 1%

3.3V

IV+

IW+

R22 0ohm 1/10W 5%

R23 0ohm 1/10W 5%

R24 0ohm 1/10W 5%

1Kohm 1/10W 1%

R6 12Kohm 1/10W 1%

C15 220pF 10V

3.3V

IPFC- R25

1Kohm 1/10W 1%

C20

4.7nF 10V

R11

15Kohm 1/10W 1%

VAC+

R16

15Kohm 1/10W 1%

C22

4.7nF 10V

VAC-

VAC1

VAC2IPFC

Using internal x3 gain (without external Op-amp):

R10= 10.0K, R13 = 2.00K, R12 = 100R

Effective gain = 3 * 5 / 6 = 2.5 (due to R6 pull up)

Same for Iv and Iw channels

P0004

P0005

P0006

P0007

PAR0

PAR1

PAR2

PAR3

P0410

P0411

VSP

RXD0

RXD1

TXD0

TXD1

P0400

P0401

P0402

P0403

P0404

P0010

P0011

DIR

P0008

PGOUT

IV-

IU-

IW-

PAR0

PAR1

PAR2

PAR3

P0400

P0401

P0402

P0403

P0404

P0004

P0005

P0006

P0007

P0008

P0010

P0011

P0410

P0411

VSP

DIR

RXD0

RXD1

TXD0

TXD1

Duty/Freq Duty/Freq_input

PAR0

PAR1

PAR2

PAR3

TP4

TP2

TP3

TP1

TP6

TP5

PWMUH

PWMVH

PWMWH

PWMUL

PWMVL

PWMWL

VDD 6

7VDD 8

9IU+ 10

11 IU- 12

13 DCB 14

VTH

15 IV+ 16

IV-

17 IW+ 18

IW-

19 +15V 20

PFCG0

21 GND 22

PFCG1

23 VDD 24

PFCGK

25 DCB 26

VAC+

27 VAC- 28

IPFC+

29 IPFC- 30

GND 2

GND 4

MADK M3 Connector

C12

10uF 10V

C13

0.1uF 10V

3.3V

Gatekill

VTH

PFCG0

PFCG1

VAC+

IU+

IU-

DCB

VAC-

IPFC-

DCB

15V

C18

10uF 10V C19

0.1uF 10V

3.3V

RXD1

RXD0TXD0

TXD1

5 6

7 8

SWD LINK

3.3V

TP12

GND

TP13

PFCG0

TP7

PFCG1

TP8

5 6

CON3*2

CON1*3IU+

IU-

DCB

DCBGatekill

VTH

IPFC+

PFCGK

IV-

IW-

IV+

IW+

CON2*2

1 2

CON2*1

3.3V

IV+

IW+

IW-

IV-

PAR0

PAR1

PAR2

PAR3

P0400 P0401

P0402 P0403

P0004 P0005

P0006 P0007

P0410

P0411

P0010P0011

P0008

PGOUT Duty/Freq

DIR

VSP

IPFC-

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Hardware description of EVAL-M3-102T

Figure 32 Signal test pin connector schematics for the EVAL-M3-102T evaluation board

5.5 PCB layout overview

The layout of this board can be used for different voltage or power classes of power board. The PCB has two

electrical layers with 35µm copper by default and its size is 65 mm × 45 mm. The PCB board thickness is 1.6mm.

Check the Infineon’s website or get in contact with Infineon’s technical support team to get more detailed

information and the latest Gerber-files.

Figure 33 illustrates the top assembly print and top paste layers of the evaluation board.

Figure 33 Top overlay print of the EVAL-M3-102T evaluation board

Figure 34 depicts the bottom assembly print of the evaluation board.

Figure 34 Bottom overlay print of the EVAL-M3-102T evaluation board

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Hardware description of EVAL-M3-102T

The top layer routing of the PCB is provided in the following Figure 35.

Figure 35 Top layer routing of the EVAL-M3-102T

Figure 36 illustrates the bottom layer routing of the PCB.

Figure 36 Bottom layer routing of the EVAL-M3-102T

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Bill of material

6 Bill of material

Table 14 provides the complete bill of materials for the EVAL-M3-102T board.

Table 14 Bill of materials

No. Qty. Part description Designator Part Number Manufacturer

1 3 CAP SMD 2.2nF 16V 0603 C1, C6，C8 CC0603KRX5R6BB10

Yageo

2 9 CAP SMD 0.1uF 16V 0603 C2, C3, C4,

C5, C7,C10,

C11, C13,

C19

885012206020 Wurth Electronics Inc.

3 5 CAP SMD 4.7nF 16V 0603 C9,

C16,C20,

C22, C23

885012206012 Wurth Electronics Inc.

4 5 CAP SMD 10uF 16V 0603 C12, C18,

C105,

C114, C115

885012206014 Wurth Electronics Inc.

5 1 CAP SMD 10nF 16V 0603 C14 885012206010 Wurth Electronics Inc.

6 4 CAP SMD 220pF 16V 0603 C15, C17,

C21, C24

885012206020 Wurth Electronics Inc.

7 7 CAP SMD 100nF 16V 0603 C101,

C102,

C103,

C104,

C108,

C110, C111

885012206004 Wurth Electronics Inc.

8 2 CAP SMD 15pF 16V 0603 C106, C107 885012206020 Wurth Electronics Inc.

9 2 CAP SMD 1uF 16V 0603 C109, C113 885012006003 Wurth Electronics Inc.

10 1 CAP SMD 4.7uF 16V 0603 C112 885012206026 Wurth Electronics Inc.

11 1 RES SMD 1/10W 47ohm 0603 5% R1 RC0603JR-0747RL Yageo

12 2 RES SMD 1/10W 9.1Kohm 0603 5% R2,R101 RC0603JR-079K1L Yageo

13 2 RES SMD 1/10W 2Kohm 0603 5% R3, R102 RC0603JR-072KL Yageo

14 1 RES SMD 1/10W 13.3kohm 0603

R4 RC0603FR-0713K3L Yageo

15 1 RES SMD 1/10W 4.87kohm 0603

R5 RC0603FR-074K87L Yageo

16 1 RES SMD 1/10W 12Kohm 0603 1% R6 RC0603FR-0712KL Yageo

17 2 RES SMD 1/10W 1Kohm 0603 1% R7, R25 RC0603FR-071KL Yageo

18 1 RES SMD 1/10W 24Kohm 0603 1% R8 RC0603FR-0724KL Yageo

19 1 RES SMD 1/10W 470 ohm 0603 1% R9 RC0603FR-07470RL Yageo

20 4 RES SMD 1/10W 10Kohm 0603 1% R10, R14,

R17, R108

RC0603FR-0710KL Yageo

21 2 RES SMD 1/10W 15Kohm 0603 1% R11, R16 RC0603FR-0715KL Yageo

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Bill of material

No. Qty. Part description Designator Part Number Manufacturer

22 3 RES SMD 1/10W 100ohm 0603 1% R12, R18,

R20

RC0603FR-07100RL Yageo

23 3 RES SMD 1/10W 2Kohm 0603 1% R13, R19,

R21

RC0603FR-072KL Yageo

24 5 RES SMD 0ohm 1/10W 0603 5% R22, R23,

R24, R110,

R111

RC0603JR-070RL Yageo

25 1 RES SMD100ohm 1/10W 0603 5% R26 RC0603JR-07100RL Yageo

26 1 RES SMD 1/10W 10kohm 0603 5% R103 RC0603JR-0710KL Yageo

27 2 RES SMD 1/10W 33ohm 0603 5% R104,R106 RC0603JR-0733RL Yageo

28 1 RES SMD 1/10W 510ohm 0603 1% R105 RC0603FR-07510RL Yageo

29 1 RES SMD 1/10W 4.7Kohm 0603 1% R107 RC0603FR-074K7L Yageo

30 1 RES SMD 1/10W 1Mohm 0603 5% R109 RC0603JR-071ML Yageo

31 1 CONN HEADER VERT DUAL 8POS

2.54

J2 61300821121 Wurth Electronics Inc.

32 1 CONN HEADER DUAL 30 POS RA

2.54

J1 61303021021 Wurth Electronics Inc.

33 1 CONN HEADER VERT DUAL 6POS

2.54

J3 61300621121 Wurth Electronics Inc.

34 1 CONN HEADER VERT DUAL 4POS

2.54

J4,J5,J6 61300421121 Wurth Electronics Inc.

35 1 CONN HEADER VERT SING 3POS

2.54

J7 61300311121 Wurth Electronics Inc.

36 CONN HEADER VERT DUAL 2POS

2.54

J8 61300221121 Wurth Electronics Inc.

37 CONN HEADER VERT SING 1POS

2.54

J9 61300111121 Wurth Electronics Inc.

38 1 FERRITE BEAD 60Ω 0603 1LN L101 BLM18PG600 Murata Electronics

North America

39 1 LED RED CLEAR 0603 SMD LED2 150060RS75000 Wurth Electronics Inc.

40 2 LED BLUE CLEAR 0603 SMD LED102 150060BS75000 Wurth Electronics Inc.

41 1 LED GREEN CLEAR 0603 SMD LED1,LED1

150060GS75000 Wurth Electronics Inc.

42 1 MOSFET N-CH 30V 2.7A SOT-23-3 Q1 IRLML2030 Infineon Technologies

43 1 OSC 12.0000MHz SMD Q101 12MHz/S/3.2X2.5 Quarz

44 10 TEST POINT PC MINI .040"D

BLACK

TP1/UH,

TP2/UL,

TP3/VH,

TP4/VL,

TP5/WH,

TP6/WL,

TP7/PFCG0

5001 Keystone Electronics

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iMOTION™ Modular Application Design Kit

Bill of material

No. Qty. Part description Designator Part Number Manufacturer

8/PFCG1

TP9/DECSE

NSE,

TP10/VTH,

TP11/GK,

TP12/3.3V,

TP13/GND

45 1 IC MCU 32BIT 128KB FLASH

64TSSOP U1 IMC102T-F064 Infineon Technologies

46 1 IC MCU 32BIT 256KB FLASH

48VQFN U101 XMC4200-Q48F256

Infineon Technologies

47 1 IC REG LINEAR 3.3V 1A SOT223-4 U102 IFX1117-ME V33 Infineon Technologies

48 1 DGTL ISO 3.75KV GEN PURP 8SOIC U103 SI8621EC-B-IS Silicon Labs

49 2 TVS DIODE 17VC WLL-2-1 V101, V102 ESD237-B1-W0201 Infineon Technologies

50 1 DIODE SCHOTTKY 30V 1A SOD323-

2 V103 BAS3010A-03W Infineon Technologies

51 1 CONN RCPT MICRO USB AB SMD

R/A X101 ZX62-AB-5PA Hirose Electric Co Ltd

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iMOTION™ Modular Application Design Kit

Reference

7 Reference

[1] iMOTION™ IMC100 Series Datasheet

[2] iMOTION™ IMC100 Software Reference Manual

[3] MCEWizard User Guide

[4] MCEDesigner User Guide

Note: All listed reference materials are available for download on Infineon’s website

www.infineon.com/imotion. All the iMOTION™ MADK power board’s User Manuals are available at

www.infineon.com/MADK

User Manual 40 of 41 Revision 1.5

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iMOTION™ Modular Application Design Kit

Reference

Revision history

Document

version

Date of release Description of changes

1.0 2018-02-22 First Release

1.1 2018-04-02 Plus small modifications

1.5 2018-11-28 Plus small modifications

Trademarks

All referenced product or service names and trademarks are the property of their respective owners.

Edition 2018-11-28

AN2018-02

Published by

Infineon Technologies AG

81726 Munich, Germany

Do you have a question about this

document?

Email: erratum@infineon.com

Document reference

IMPORTANT NOTICE

The information contained in this application note is

given as a hint for the implementation of the product

only and shall in no event be regarded as a

description or warranty of a certain functionality,

condition or quality of the product. Before

implementation of the product, the recipient of this

application note must verify any function and other

technical information given herein in the real

application. 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) with respect to any and all information

given in this application note.

The data contained in this document is exclusively

intended for technically trained staff. It is the

responsibility of customer’s technical departments

to evaluate the suitability of the product for the

intended application and the completeness of the

product information given in this document with

respect to such application.

For further information on the product, technology,

delivery terms and conditions and prices please

contact your nearest Infineon Technologies office

(www.infineon.com).

WARNINGS

Due to technical requirements

products may contain

dangerous substances. For information on the types

in question please contact your nearest Infineon

Technologies office.

Except as otherwise explicitly approved by Infineon

Technologies in a written document signed by

authorized repre

sentatives of Infineon

Technologies, Infineon Technologies’ products may

not be used in any applications where a failure of the

product or any consequences of the use thereof can

reasonably be expected to result in personal injury.