Evaluation Board EVAL-1EDI20H12AH-SIC /
EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
1EDI20H12AH, 1EDC20H12AH IMZ120R045M1
EiceDRIVER, SiC MOSFET
About this document
Scope and purpose
The gate driver evaluation boards EVAL-1EDC20H12AH-SIC and EVAL-1EDI20H12AH-SIC with the EiceDRIVER™
1EDC20H12AH or 1EDI20H12AH and CoolSiC™ MOSFET IZM120R045M1 were developed to demonstrate the
functionality and key features of the Infineon EiceDRIVER™and Infineon CoolSiC™ MOSFET.
The only dierence between both boards is the gate driver installed.
The EVAL-1EDC20H12AH-SIC uses the 1EDC20H12AH, certified according to UL1577 while the EVAL-1EDI20H12AH-
SIC uses the 1EDI20H12AH gate driver. All other components and functionalities are the same. The following
description refers to the EVAL-1EDI20H12AH-SIC, but is valid for both boards.
Both boards are available from Infineon in sampling quantity.
The boards contain a short circuit protection to turn OFF the CoolSiC™ MOSFET within about 1.5 µs aer a short
circuit event.Main features of the boards are described in the key feature section of this document, whereas the
remaining paragraphs provide information intended to enable the users to copy, modify and qualify the design
for production, according to their own specific requirements.
Details about the EiceDRIVER™ 1EDC20H12AH or 1EDI20H12AH and the CoolSiC™ MOSFET IZM120R045M1 can be
found at the links:
•https://www.infineon.com/cms/en/search.html#!view=all&term=1EDI20H12AH
•https://www.infineon.com/cms/en/search.html#!view=all&term=CoolSic
The design of the EVAL-1EDI20H12AH-SIC was performed with respect to the environmental conditions described
in this document. The design was tested as described in this document, but not qualified regarding
manufacturing, lifetime or over the full range of ambient operating conditions.
Environmental conditions were considered in the design of the EVAL-1EDC20H12AH-SIC and EVAL-1EDI20H12AH-
SIC. The design was tested as described in this document but 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 and by trained specialists only.
Intended audience
• Engineers who want to learn how to use the Infineon EiceDRIVER™ and CoolSiC™ MOSFET
• Experienced design engineers designing circuits with Infineon EiceDRIVER™, IGBT and CoolSiC™ MOSFET
• Design engineers designing power electronic devices, like inverters
Table of contents
About this document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
AN2017-14
Please read the Important Notice and Warnings at the end of this document 1.0
www.infineon.com 2017-11-30
1 Electrical description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
1.1 Key features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
1.2 Electrical features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
1.2.1 Supply voltage, operating conditions and absolute maximum rating . . . . . . . . . . . . . . . . . . . . . . . .3
1.2.2 Start up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
1.2.3 Overcurrent protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
1.3 Pin assignment . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
2 Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8
2.1 Gate driver schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
2.1.1 High side gate driver TOP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
2.1.2 Low side gate driver BOTTOM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10
2.2 Power supply schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
2.3 Interface schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
3 PCB Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
3.1 Assembly drawing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
4 Bill of material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Disclaimer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
1 Electrical description
This chapter provides an overview of the key features, specifications and pin assignments as well as mechanical
dimensions.
1.1 Key features
The section describes the features of the evaluation PCBs and their key parameter.
The Evaluation Board "EVAL-1EDI20H12AH-SIC" is intended to evaluate the Infineon EiceDRIVER™ 1EDC20H12AH
or 1EDI20H12AH together with the Infineon SiC MOSFET IMZ120R045M1 in an application circuit to understand
the features and performance of both devices.
The board contains two gate drivers to drive two SiC MOSFET switches in half bridge configuration.
An additional gate driver is used to transfer the over-current information through the isolation barrier between
the power high voltage side to the low voltage input side.
Some supporting circuits like voltage regulator and DC-DC converter are implemented for a simple use in the
laboratory. The DC-DC converter provides galvanically isolated supply voltages for each SiC MOS driver stage.
The picture shows the top view of the EVAL-1EDI20H12AH-SIC.
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
1 Electrical description
2 1.0
2017-11-30
Figure 1 EVAL-1EDI20H12AH-SIC top view
The board has a size of 85 x 55 x 30 mm3.
It is intended to be used for so called double pulse testing. However, it's under the responsibility of the user to
adapt it for testing it under continuous operation by adding a heat sink. An additional blocking capacitor to the
high voltage supply is recommended.
The low voltage interface can be controlled by a pulse generator, a microcontroller or other digital circuits.
For safe operation a fast overcurrent detection and protection circuit is implemented with a galvanically
isolated feedback path to the low voltage input side. The trigger flip-flop is implemented to latch the
overcurrent event information. This circuit will report the overcurrent event and turns OFF both drivers aer an
overcurrent event. The button S1 will reset the flip-flop to enable the drivers again. Further description is
provided in the section Overcurrent protection.
1.2 Electrical features
1.2.1 Supply voltage, operating conditions and absolute maximum rating
The evaluation board is intended to be used in the laboratory for so called double pulse tests with limited
power dissipation.
The user has to ensure a stable supply voltage by adding an adequate capacitor. In case of continuous
operation, the user has to take care of the cooling of the CoolSiC™ MOSFET IZM120R045M1 by adding adequate
heatsinks. The heatsinks should be isolated from each other by using a separate heatsink for each transistor.
The heatsinks should have a safe distance to the capacitors C5 and C13 to avoid arching due to high voltage.
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
1 Electrical description
3 1.0
2017-11-30
Table 1 Absolute maximum ratings
pin name Abs. Max. Unit Note
+15V -0.2 … 20 V input, support supply voltage
VCC1 -0.2 … 5.3 V output, don't supply external if internal voltage regulator is
used for 5 V operation
ENABLE -0.2 … VCC1 + 0.2 V input, digital signal
FAULT -0.2 … VCC1 + 0.2 V output, digital signal
RST -0.2 … VCC1 + 0.2 V input, digital signal
IN_T -0.2 … VCC1 + 0.2 V input, digital signal
IN_B -0.2 … VCC1 + 0.2 V input, digital signal
V-HV -0.2 … 1200 V input, high voltage supply, for voltages above 42 V, special
high voltage lab environment is strongly recommended
Phase peak
current
25 A Phase peak current for double pulse test without heatsink,
max. pulse duration 100µs
tpulse 100 µs maximum ON pulse length without heatsink for double
pulse tests
f 100 kHz maximum switching frequency for continuous operation,
depending on power dissipation due to the load, a heatsink
for the CoolSiC™ is necessary.
There are two supply modes, the VCC1 = 5 V operation, see Table 2 and VCC1 = 3.3 V operation, see Table 3
Table 2 VCC1 = 5 V operation using internal voltage regulator
pin name Min. Typ. Max. Unit Note
+15V 15.5 16 16.5 V input, support supply voltage
VCC1 4.8 5 5.2 V output, don't supply external
ENABLE -0.1 0 VCC1+0.1 V input, digital signal, Low active
Fault -0.1 5 VCC1+0.1 V output, digital signal
RST -0.1 5 VCC1+0.1 V input, digital signal
IN_T -0.1 5 VCC1+0.1 V input, digital signal
IN_B -0.1 5 VCC1+0.1 V input, digital signal
V-HV 25 600 V input, high voltage supply, for voltages above 42 V, special
high voltage lab environment is strongly recommended
Table 3 VCC1 = 3.3 V operation using external supply voltage, remove R20 to disconnect internal
regulator
pin name Min. Typ. Max. Unit Note
+15V 15.5 16 16.5 V input, support supply voltage
VCC1 3.2 3.3 3.4 V output, external supply , remove R20 to disconnect internal
voltage regulator
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
1 Electrical description
4 1.0
2017-11-30
Table 3 VCC1 = 3.3 V operation using external supply voltage, remove R20 to disconnect internal
regulator (continued)
pin name Min. Typ. Max. Unit Note
ENABLE -0.1 0 VCC1+0.1 V input, digital signal, Low active
Fault -0.1 3.3 VCC1+0.1 V output, digital signal
RST -0.1 3.3 VCC1+0.1 V input, digital signal
IN_T -0.1 3.3 VCC1+0.1 V input, digital signal
IN_B -0.1 3.3 VCC1+0.1 V input, digital signal
V-HV 25 600 V input, High voltage supply, for voltages above 42 V, special
High voltage lab environment is strongly recommended
1.2.2 Start up
To start the operation these steps have to be done:
1. Supply +15V at connector J4.1 with +16 V and connect supply GND to connector J4.2
2. The red LED4 will turn ON
3. Push S1 to reset the error flip-flop
4. The red LED4 will turn OFF and yellow LED3 will turn ON
5. Connect the digital driving device to the digital interface connector, labeled CON1:
• pin 6 for IN_T
• pin 8 for IN_B
6. Connect the high voltage supply to connector J1.1 or J1.2 and HV GND to J3.2. An additional external
capacitor > 100 µF from J1.1 to J3.2 helps to stabilize the supply voltage.
7. Connect the inductive load to J2.1. The other side of the load can be connected to dierent nodes
depending on the requirements. Please see Table 4
8. The board is now ready for tests
Table 4 Load connection
To be tested Connection 1st side of
load
Connection 2nd side of
load
Note
High side driver TOP J2.1 J3.1 and J3.2 High side operation
Low side driver BOTTOM J2.1 J1.1 or J1.2 Low side operation
High- and Low side drive J2.1 J2.2 or another gate driver
board
Half or full bridge
operation
ENABLE must be pulled down to Low to enable a driver. The dierent drivers can be turned ON or OFF by driving
either IN_T for the High side TOP or IN_B for the Low side BOTTOM driver at the digital interface connector. Only
one input signal, either IN_T OR IN_B should be pulled to "High" to avoid turning ON both drivers at the same
time.
To adapt the circuit to the application requirements, resistor or capacitor values can be changed to optimize the
performance.
1.2.3 Overcurrent protection
An over current protection is implemented to protect the board and components against high current .
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
1 Electrical description
5 1.0
2017-11-30
The current is determined by measuring the voltage across the shunt resistor R18. This is available at the two
test points TP7 and TP10.
The detection circuit measures the voltage across R18, sends the signal through a low pass filter R17 and C21
and compares it to a reference voltage with the comparator IC5. The reference voltage is defined by the voltage
divider R11 and R19. The trip point is about 32A and can be adapted to customer requirements by changing R18
and/or adapting the reference voltage divider R11 and R19.
The output signal is transferred with IC3 to the low voltage domain to trigger the flip-flop and store the over
current event. Once the flip-flop is triggered, it turns o both gate drivers by the ENABLE signal. In addition, it
reports the over current event to the digital interface connector as FAULT signal and will turn ON the LED4.
To go back to normal operation, S1 needs to be pushed to reset the flip-flop. As feedback, LED4 will turn OFF
and LED3 will turn ON.
The turn OFF of both drivers due to over current is displayed in the fig. OC Turn OFF and details in fig. OC Turn
OFF details. The low side driver with load from switching node to HV supply was used to demonstrate the
protection behavior. The HV supply voltage during the test was 530 V. The typical over current turn OFF
threshold is about 32 A.
Figure 2 OC Turn OFF (Ch1: Phase, Ch2: Enable, Ch3: IN_B, Ch4: I_load)
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
1 Electrical description
6 1.0
2017-11-30
Figure 3 OC Turn OFF details (Ch1: Phase, Ch2: Enable, Ch3: IN_B, Ch4: I_load)
1.3 Pin assignment
Description of PCB connectors
The evaluation PCB has several connectors to supply the board and to get dierent signals in or out.
Table 5 PCB power Connectors
Connector Schematic Note
J1 Gate driver J1.1 = J1.2 = High voltage power supply
J2 Gate driver J2.1 = PHASE and J2.2 = center point blocking caps
J3 Gate driver J3.1 = SENSE and J3.2 = High voltage GND
J4 Interface J4.1 = +15V to supply the PCB, J4.2 = GND
J5 Interface J5.1 = VCC1 output, J5.2 = GND
Table 6 Digital interface connector, labeled CON1
Pin number Pin marking Note
1 ENABLE To enable driver pull to "Low"
2 FAULT Fault output to report over current faults, "Low" active
3 GND Ground Low voltage domain
4 RST Reset of fault flip flop, "Low" active
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
1 Electrical description
7 1.0
2017-11-30
Table 6 Digital interface connector, labeled CON1 (continued)
Pin number Pin marking Note
5 GND Ground Low voltage domain
6 IN_T Input High Side (Top), "High" active
7 GND Ground Low voltage domain
8 IN_B Input Low side (Bottom), "High" active
9 GND Ground Low voltage domain
10 VCC1 VCC1 supply output, on board generated out of +15V
2 Schematic
The schematic of the evaluation boards is separated in three parts.
• Gate driver schematic, see Figure 4, high side and low side gate driver in a half bridge configuration and the
over-current detection and protection circuit with voltage regulator and feedback path.
• Power supply schematic, see Figure 5, DC-DC converter to generate the isolated power supply for the high
side and the low side gate driver out of the +15V supply voltage.
• Interface schematic, see Figure 6, interface to a digital driver or a microcontroller with on board 5 V voltage
regulator and the error flip-flop to store an over current event.
There are three voltage domains:
• Low voltage domain
• High voltage domain TOP
• High voltage domain BOTTOM
The dierent domains are separated by dotted lines and marked with the respective domain names. The three
domains are galvanically isolated from each other.
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
2 Schematic
8 1.0
2017-11-30
2.1 Gate driver schematic
This part explains the gate driver schematic
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
D D
C C
B B
A A
1
Michael Wendt
GCD
2
1.1
29.03.2017 14:07:26
EvaluationBoard_1EDI60I12AH_Rev1_1_page1.SchDoc
Title:
PCB-Number:
Date:
File:
Ver.:
Sheet: of
1EDI60I12AH - Infineon
03/29/201729.03.2017
Printed:
Drawn:
Engineer:
Checked: Michael Wendt
VCC1
1
IN+
2
IN-
3
GND1
4GND2 5
VCC2 6
VOUT+ 7
VOUT- 8
IC2 1EDI20H12AH
0
R4
1k
R17
0
R6
4.7uF
25V
C10
10
R5
2
4
1
3
T1
IZM120R045M1
0.003
R18
ENABLE
ENABLE
IN_T
IN_T
GND
HV_GND
0.001uF
50V
C7
VCC1
1
IN+
2
IN-
3
GND1
4GND2 5
VCC2 6
VOUT+ 7
VOUT- 8
IC4 1EDI20H12AH
0
R12
0
R15
ENABLE
ENABLE
IN_B
IN_B
4.7uF
25V
C9
10
R3
VCC2_T
VEE2_T
VCC2_T
VEE2_T
PHASE
4.7uF
25V
C20
10
R13
2
4
1
3
T2
IZM120R045M1
4.7uF
25V
C19
10
R10
VCC2_B
VEE2_B
VCC2_B
VEE2_B
N.A.
C14 51k
R11
1M
R14
10k
R90.1uF
50V
C11
HV_GND
I
1
GND
2
Q3
GND
4
IC1 TLE42644G
4.7uF
25V
C3
HV_GND
0.1uF
50V
C4
Green
12
LED1
270
R2
VCC2_5
VCC2_5
I
1
GND
2
Q3
GND
4
IC6 TLE42644G
Green
12
LED2
1k
R21
GND
3
1
2
T7
BC848A
3k3
R28
15k
R32
D1
BAT165
Red
12
LED4 Yellow
12
LED3
GND
3
1
2
T5
BC848A 15k
R29
15k
R30
3
1
2
T3
BC848A
7k5
R25
1k
R24 7k5
R26
3k3
R27
3
1
2
T4
BC848A
1k
R22 3k3
R23
ENABLE ENABLE
RST
RST
FAULT
FAULT
Gate Driver OC Comparator
5V Voltage
Regulator
GND
RST
RST
GND
4.7uF
25V
C30
GND
4.7uF
25V
C28
C_OUT
1
2
J1
MKDSN 1,5/ 2-5,08
GND
0.1uF
50V
C29
1uF
50V
C31
Connectors
Status LED
0.25uF
900V
C5
0.1uF
50V
C8
N.A.
R7
0.001uF
50V
C17 0.1uF
50V
C18
N.A.
R16
GND
1
2
J3
MKDSN 1,5/ 2-5,08
1
2
J2
MKDSN 1,5/ 2-5,08
0.33µF
C2
0.25uF
900V
C13
0.33µF
C12
OPTION
ASSEMBLY
OPTION
ASSEMBLY
VCC2_B
TOP
BOTTOM
Low Voltage DomainHigh Voltage Bottom Domain
TP1
TP2
TP5
TP6
GND2_T GND2_T
N.A.
C6
GND2_B SENSE
100
R1
10uF
25V
C1
0.1uF
50V
C24
4.7uF
25V
C23 4.7uF
25V
C26
GND2_B
1k
R19
VCC1
1
IN+
2
IN-
3
GND1
4GND2 5
VCC2 6
VOUT+ 7
VOUT- 8
IC3
1EDI20H12AH
TP10
47k
R8
3
1
2
T6
BC848A
GND
+15V
0.1uF
50V
C25
ENABLE
ENABLE FAULT FAULT
IN_T
IN_T
IN_B
IN_B
RST
RST
0
R20 VCC1
VCC1
VCC1
+15V_IN
1
2
J4
TSW-102-07-G-S
1
2
J5
TSW-102-07-G-S
4.7uF
25V
C27
VCC1
VCC1
VCC1
V-HV
TP7
0.1uF
50V
C15
47k
R31
Low Voltage Domain High Voltage TOP Domain Voltage Regulator
100pF
50V
C21
0.001uF
50V
C22
31
2
4
5
V+
V-
6
IC5
LT6200CS6-10#TRMPBF
0.1uF
50V
C16
GND
+15V
1
23
4
S1
7914G-1-000E
VCC1
VCC1
TP4
TP9
TP11
TP3
TP8
1 2
3 4
5 6
7 8
910
CON1
TSW-105-07-G-D
Infineon
PIC101
PIC102
COC1
PIC201
PIC202
COC2
PIC301
PIC302
COC3
PIC401
PIC402
COC4
PIC501
PIC502
COC5
PIC601
PIC602
COC6
PIC701
PIC702
COC7
PIC801
PIC802
COC8
PIC901
PIC902
COC9
PIC1001
PIC1002
COC10
PIC1101
PIC1102
COC11
PIC1201
PIC1202
COC12
PIC1301
PIC1302
COC13
PIC1401
PIC1402
COC14
PIC1501
PIC1502
COC15
PIC1601
PIC1602
COC16
PIC1701
PIC1702
COC17
PIC1801
PIC1802
COC18
PIC1901
PIC1902
COC19
PIC2001
PIC2002
COC20
PIC2101
PIC2102
COC21
PIC2201
PIC2202
COC22
PIC2301
PIC2302
COC23
PIC2401
PIC2402
COC24
PIC2501
PIC2502
COC25
PIC2601
PIC2602
COC26
PIC2701
PIC2702
COC27
PIC2801
PIC2802
COC28
PIC2901 PIC2902
COC29
PIC3001
PIC3002
COC30
PIC3101
PIC3102
COC31
PICON101 PICON102
PICON103 PICON104
PICON105 PICON106
PICON107 PICON108
PICON109
PICON1010
COCON1
PID101
PID102
COD1
PIIC101
PIIC102
PIIC103
PIIC104
COIC1
PIIC201
PIIC202
PIIC203
PIIC204 PIIC205
PIIC206
PIIC207
PIIC208
COIC2
PIIC301
PIIC302
PIIC303
PIIC304 PIIC305
PIIC306
PIIC307
PIIC308
COIC3
PIIC401
PIIC402
PIIC403
PIIC404 PIIC405
PIIC406
PIIC407
PIIC408
COIC4
PIIC501
PIIC502
PIIC503
PIIC504
PIIC505
PIIC506
COIC5
PIIC601
PIIC602
PIIC603
PIIC604
COIC6
PIJ101
PIJ102
COJ1
PIJ201
PIJ202
COJ2
PIJ301
PIJ302
COJ3
PIJ401
PIJ402
COJ4
PIJ501
PIJ502
COJ5
PILED101
PILED102
COLED1
PILED201
PILED202
COLED2
PILED301
PILED302
COLED3
PILED401
PILED402
COLED4
PIR101 PIR102
COR1
PIR201
PIR202
COR2
PIR301 PIR302
COR3
PIR401
PIR402
COR4
PIR501 PIR502
COR5
PIR601
PIR602
COR6
PIR701
PIR702
COR7
PIR801
PIR802
COR8
PIR901
PIR902
COR9
PIR1001 PIR1002
COR10
PIR1101
PIR1102
COR11
PIR1201
PIR1202
COR12
PIR1301 PIR1302
COR13
PIR1401 PIR1402
COR14
PIR1501
PIR1502
COR15
PIR1601
PIR1602
COR16
PIR1701 PIR1702
COR17
PIR1801
PIR1802
COR18
PIR1901
PIR1902
COR19
PIR2001 PIR2002
COR20
PIR2101
PIR2102
COR21
PIR2201
PIR2202
COR22
PIR2301
PIR2302
COR23
PIR2401
PIR2402
COR24
PIR2501
PIR2502
COR25
PIR2601
PIR2602
COR26
PIR2701 PIR2702
COR27
PIR2801
PIR2802
COR28
PIR2901
PIR2902
COR29
PIR3001
PIR3002
COR30
PIR3101
PIR3102
COR31
PIR3201
PIR3202
COR32
PIS101
PIS102
PIS103
PIS104
COS1
PIT101
PIT102
PIT103
PIT104
COT1
PIT201
PIT202
PIT203
PIT204
COT2
PIT301
PIT302
PIT303
COT3
PIT401
PIT402
PIT403
COT4
PIT501
PIT502
PIT503
COT5
PIT601
PIT602
PIT603
COT6
PIT701
PIT702
PIT703
COT7
PITP101
COTP1
PITP201
COTP2
PITP301
COTP3
PITP401
COTP4
PITP501
COTP5
PITP601
COTP6
PITP701
COTP7
PITP801
COTP8
PITP901
COTP9
PITP1001
COTP10
PITP1101
COTP11
PO015V
PO015V0IN
POENABLE
POFAULT
POGND20B
POGND20T
POIN0B
POIN0T
PORST
POVCC1
POVCC205
POVCC20B
POVCC20T
POVEE20B
POVEE20T
Figure 4 The gate driver schematics
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
2 Schematic
9 1.0
2017-11-30
The Low voltage domain is shown on the le hand side and on the right hand side of Figure 4. It's typically used
to connect to a microcontroller and supplied with VCC1. Every supply pin VCC1 has a blocking capacitor C8 and
C18 to GND1.
Every gate driver has two inputs:
• IN+, non inverted input, high signal will turn the corresponding SiC MOSFET ON.
• IN-, inverted input, high signal will turn the corresponding SiC MOSFET OFF.
The circuit part on the right hand side of the schematic is the feedback interface to deliver over current signal
information to the microcontroller.
C2 and C5 are high voltage supply blocking caps. Only C5 is populated, while C2 is optional. J1 is the input
connector for the high voltage supply.
The connector J2.1 is connected to the center of the half bridge called PHASE. J2.2 is connected to the blocking
capacitors C5,C13.
C12 and C13 are high voltage supply blocking caps. Only C13 is populated, while C12 is optional. J3.2 is the
connector for the high voltage supply ground. J3.1 is the connector to the shunt resistor R18.
2.1.1 High side gate driver TOP
In the top center section the high side driver, called TOP, is shown. It's the output of the gate driver IC2, supplied
with VCC2_T and VEE2_T. VCC2_T is decoupled by the blocking capacitor C9 and VEE2_T has the blocking
capacitor C10.
The charging current of the SiC MOSFET T1 is limited by R3.
The discharging current of the SiC MOSFET T1 is limited by R5.
The capacitor C6 is optional and not populated. It can be used to decrease the switching time of T1 if needed.
2.1.2 Low side gate driver BOTTOM
In the lower center of the schematic the low side driver BOTTOM is shown. It's the output of the gate driver IC4,
supplied with VCC2_B and VEE2_B. VCC2_B has the blocking capacitor C19 and VEE2_T has the blocking
capacitor C20.
The charging current of the SiC MOSFET T2 is limited by R10.
The discharging current of the SiC MOSFET T2 is limited by R13.
The capacitor C14 is optional and not populated. It can be used to decrease the switching time of T2 if needed.
The shunt resistor R18 is used to detect over current. The low pass filter R17 and C21 will filter the voltage signal
across R18 and deliver it to the comparator IC5.
The reference signal for the comparator is created with the voltage divider R11 and R19 with filter capacitor C22.
The over current detection threshold can be adjusted by changing the reference voltage with divider R11 and
R19 or changing the shunt resistor R18.
IC1 is a voltage regulator to create stabilized VCC2_5 out of VCC2_B. VCC2_5 is the supply voltage for IC5 and IC3.
LED1 is a signal LED to show that VCC2_5 is available. C1, C3 and C4 are blocking capacitors for proper operation
of IC1.
IC3 is used as feedback part to transfer the over current information from the HV BOTTOM domain to the low
voltage domain. The supply voltage VCC1 is supplied by VCC2_5 and blocked with the capacitor C15. The output
side of IC3 is transferring from OUT+ and OUT- through R8 to the base of T6 of the fault flip-flip in the interface
schematic. VCC2 of IC3 is supplied with +15V.
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
2 Schematic
10 1.0
2017-11-30
2.2 Power supply schematic
This part explains the schematic of the power supply containing the isolated DC-DC converter
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
D D
C C
B B
A A
2
Michael Wendt
GCD
2
1.1
29.03.2017 14:07:27
EvaluationBoard_1EDI60I12AH_Rev1_1_page2.SchDoc
Title:
PCB-Number:
Date:
File:
Ver.:
Sheet: of
1EDI60I12AH - Infineon
03/29/201729.03.2017
Printed:
Drawn:
Engineer:
Checked: Michael Wendt
D3
SS14-E3/61T
GND
CS
1
OSC
2
GND
3LO 4
VCC
5
VS 6
HO 7
VB 8
IC7
IR2085SPBF
0.001uF
50V
C39
1k
R42
15
R40
15
R39
100pF
50V
C40
68k
R37
1uF
50V
C38
D5
BAT165
0.1uF
50V
C36
0.22
R44 4.7uF
25V
C41
T60403_F5046-X007
2
511
7
8
12
N1
N2
N3
TR1
4.7uF
25V
C42
4.7uF
25V
C34 D7
BAT165
4.7uF
25V
C32
D2
BAT165
D4
BAT165
4.7uF
25V
C33
4.7uF
25V
C35
0.15
R33
3k65
R34
Green
12
LED5
VCC2_T
VCC2_T
GND2_T
3
1
2
T9
BC857C
5.6V
D6
BZT52C5V6T-7
820
R38
100k
R35
0.15
R36 VEE2_T
VEE2_T
D11
BAT165
4.7uF
25V
C43
D8
BAT165
D9
BAT165
4.7uF
25V
C44
4.7uF
25V
C45
0.15
R41
3k65
R43
Green
12
LED6
VCC2_B
VCC2_B
GND2_B
3
1
2
T10
BC857C
5.6V
D10
BZT52C5V6T-7
820
R47
100k
R45
0.15
R46 VEE2_B
VEE2_B
GND2_T
GND2_B
ISOLATED POWER SUPPLY GALVANIC ISOLATION
High Voltage TOP Domain
High Voltage BOTTOM Domain
GALVANIC ISOLATION
TP12
TP15
TP14
TP13
-5V BOTTOM
-5V TOP
+15V BOTTOM
+15V TOP
+15V
+15V_IN
TP16
1
5 6
T8A
BSL306N
2 4
3T8B
BSL306N
+15V
4.7uF
25V
C37
FID1 FID2 FID3 Infineon
PIC3201 PIC3202
COC32
PIC3301
PIC3302
COC33
PIC3401
PIC3402
COC34
PIC3501
PIC3502
COC35
PIC3601
PIC3602
COC36
PIC3701
PIC3702
COC37
PIC3801
PIC3802
COC38
PIC3901
PIC3902
COC39
PIC4001
PIC4002
COC40
PIC4101
PIC4102
COC41
PIC4201
PIC4202
COC42
PIC4301 PIC4302
COC43
PIC4401
PIC4402
COC44
PIC4501
PIC4502
COC45
PID201
PID202
COD2
PID301
PID302
COD3
PID401
PID402
COD4
PID501
PID502
COD5
PID601
PID602
COD6
PID701
PID702
COD7
PID801
PID802
COD8
PID901
PID902
COD9
PID1001
PID1002
COD10
PID1101
PID1102
COD11
COFID1
COFID2 COFID3
PIIC701
PIIC702
PIIC703 PIIC704
PIIC705
PIIC706
PIIC707
PIIC708
COIC7
PILED501
PILED502
COLED5
PILED601
PILED602
COLED6
PIR3301 PIR3302
COR33
PIR3401
PIR3402
COR34
PIR3501
PIR3502
COR35
PIR3601 PIR3602
COR36
PIR3701
PIR3702
COR37
PIR3801
PIR3802
COR38
PIR3901 PIR3902
COR39
PIR4001 PIR4002
COR40
PIR4101 PIR4102
COR41
PIR4201 PIR4202
COR42
PIR4301
PIR4302
COR43
PIR4401
PIR4402
COR44
PIR4501
PIR4502
COR45
PIR4601 PIR4602
COR46
PIR4701
PIR4702
COR47
PIT801
PIT805
PIT806
COT8A
PIT802
PIT803
PIT804
COT8B
PIT901
PIT902
PIT903
COT9
PIT1001
PIT1002
PIT1003
COT10
PITP1201
COTP12
PITP1301
COTP13
PITP1401
COTP14
PITP1501
COTP15
PITP1601
COTP16
PITR102
PITR105
PITR107
PITR108
PITR1011
PITR1012
COTR1
PO015V
PO015V0IN
POGND20B
POGND20T
POVCC20B
POVCC20T
POVEE20B
POVEE20T
Figure 5 Power supply schematic
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
2 Schematic
11 1.0
2017-11-30
The power supply schematic in Figure 5 is showing the galvanic isolated DC-DC converter to generate the
isolated supply VCC2_T and VEE2_T to supply the high side driver and VCC2_B and VEE2_B to supply the low
side driver.
On the le hand side the generator part with the IC7 IR2085SPBF is displayed. It's working in combination with
transistors BSL306N as half bridge T8A and T8B. The phase of the half bridge is driving the transformer TR1
input side N1.
The supply is called +15V and connected via the diode D3 from +15V_IN, connector J4.1, please see interface
schematic.
N2 and N3 are the galvanically isolated output coils of the transformer TR1 .
N3 and the rectifier circuit with D7, D2, D4, D6, and T9 is used to generate the supply voltages VCC2_T and
VEE2_T for the high voltage TOP domain. LED5 is showing the proper operation of this circuit part.
N2 and the rectifier circuit with D11, D8, D9, D10, and T10 is used to generate the supply voltages VCC2_B and
VEE2_B for the high voltage BOTTOM domain. LED6 is indicating the proper operation of this circuit part.
The transformer is galvanically isolating the three dierent domains:
• The low voltage domain
• The high voltage domain TOP
• The high voltage domain BOTTOM
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
2 Schematic
12 1.0
2017-11-30
2.3 Interface schematic
This part explains the schematic of the interface to the microcontroller
I
1
GND
2
Q3
GND
4
IC6 TLE42644G
Green
12
LED2
1k
R21
GND
3
1
2
T7
BC848A
3k3
R28
15k
R32
D1
BAT165
Red
12
LED4 Yellow
12
LED3
GND
3
1
2
T5
BC848A 15k
R29
15k
R30
3
1
2
T3
BC848A
7k5
R25
1k
R24 7k5
R26
3k3
R27
3
1
2
T4
BC848A
1k
R22 3k3
R23
ENABLE ENABLE
RST
RST
FAULT
FAULT
5V Voltage
Regulator
GND
RST
RST
GND
4.7uF
25V
C30
GND
4.7uF
25V
C28
GND
0.1uF
50V
C29
1uF
50V
C31
Connectors
Status LED
0.1uF
50V
C24
4.7uF
25V
C23 4.7uF
25V
C26
3
1
2
T6
BC848A
+15V
0.1uF
50V
C25
ENABLE
ENABLE FAULT FAULT
IN_T
IN_T
IN_B
IN_B
RST
RST
0
R20 VCC1
VCC1
VCC1
+15V_IN
1
2
J4
TSW-102-07-G-S
1
2
J5
TSW-102-07-G-S
4.7uF
25V
C27
VCC1
47k
R31
1
23
4
S1
7914G-1-000E
TP11
1 2
3 4
5 6
7 8
9 10
Figure 6 The interface schematic with failure flip-flop
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
2 Schematic
13 1.0
2017-11-30
The interface schematic, in Figure 6, contains in the upper le corner the 5 V regulator IC6 to generate the VCC1
for the low voltage domain.
The 10 pin interface connector to the digital driving circuit like a microcontroller, the 15 V input connector J4,
the reset button S1 and VCC1 output J5 are placed on the lower le side of the schematic marked as
connectors.
The error flip-flop is displayed on the right hand side with the Status LED. It's triggered with the signal from R8
in the gate driver schematics. LED4 will indicate an over-current event and LED3 will indicate normal operation.
The error flip-flop with over current detection circuit is intended to protect the board during lab evaluation. In
the real application it's not required.
3 PCB Layout
A special PCB layout was developed to demonstrate the excellent performance of the components used. Main
part is the interaction between the gate driver and the SiC MOS transistor as well as the current path for the high
power supply, load and power GND.
Also the supporting circuits like the DC-DC converter, the over current detection with the shunt resistor and the
power supply of all circuit parts were optimized for this board.
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
3 PCB Layout
14 1.0
2017-11-30
PAC101
PAC102
COC1
PAC301
PAC302
COC3
PAC401
PAC402
COC4
PAC502
PAC501
COC5
PAC601
PAC602
COC6
PAC702 PAC701
COC7
PAC801
PAC802
COC8
PAC901
PAC902
COC9
PAC1001
PAC1002
COC10
PAC1101
PAC1102
COC11
PAC1302
PAC1301
COC13
PAC1401
PAC1402
COC14
PAC1501
PAC1502
COC15
PAC1601
PAC1602
COC16
PAC1702 PAC1701
COC17
PAC1801
PAC1802
COC18
PAC1901
PAC1902
COC19
PAC2001
PAC2002
COC20
PAC2101
PAC2102
COC21
PAC2202
PAC2201
COC22
PAC2301 PAC2302
COC23
PAC2401 PAC2402
COC24
PAC2501
PAC2502
COC25
PAC2601
PAC2602
COC26
PAC2701
PAC2702
COC27
PAC2801 PAC2802
COC28
PAC2901
PAC2902
COC29
PAC3001
PAC3002
COC30
PAC3101
PAC3102
COC31
PAC3201
PAC3202
COC32
PAC3301
PAC3302
COC33
PAC3401
PAC3402
COC34
PAC3501
PAC3502
COC35
PAC3601
PAC3602
COC36
PAC3701
PAC3702
COC37
PAC3801
PAC3802
COC38
PAC3902
PAC3901
COC39
PAC4001
PAC4002
COC40
PAC4101
PAC4102
COC41
PAC4201
PAC4202
COC42
PAC4301
PAC4302
COC43
PAC4401
PAC4402
COC44
PAC4501
PAC4502
COC45
PACON101
PACON102
PACON103
PACON104
PACON105
PACON106 PACON107
PACON108
PACON109
PACON1010
COCON1
PAD101
PAD102
COD1
PAD201
PAD202
COD2
PAD302
PAD301
COD3
PAD401
PAD402
COD4
PAD501
PAD502
COD5
PAD601
PAD602
COD6
PAD701 PAD702
COD7
PAD801
PAD802
COD8
PAD901
PAD902
COD9
PAD1001
PAD1002
COD10
PAD1101 PAD1102
COD11
PAFID101
COFID1
PAFID201
COFID2
PAFID301
COFID3
PAIC104
PAIC103
PAIC102
PAIC101
COIC1
PAIC208
PAIC207
PAIC206
PAIC205
PAIC204
PAIC203
PAIC202
PAIC201
COIC2
PAIC308
PAIC307
PAIC306
PAIC305 PAIC304
PAIC303
PAIC302
PAIC301
COIC3
PAIC408
PAIC407
PAIC406
PAIC405
PAIC404
PAIC403
PAIC402
PAIC401
COIC4
PAIC501
PAIC502
PAIC503
PAIC506
PAIC505
PAIC504
COIC5
PAIC604
PAIC603
PAIC602
PAIC601
COIC6
PAIC701 PAIC702
PAIC703
PAIC704
PAIC708 PAIC707
PAIC706
PAIC705
COIC7
PAJ101
PAJ102
COJ1
PAJ201
PAJ202
COJ2
PAJ301
PAJ302
COJ3
PAJ401
PAJ402
COJ4
PAJ501
PAJ502
COJ5
PALED102
PALED101
COLED1
PALED202
PALED201
COLED2
PALED302
PALED301
COLED3
PALED402
PALED401
COLED4
PALED502
PALED501
COLED5
PALED602
PALED601
COLED6
PAR101
PAR102
COR1
PAR202
PAR201
COR2
PAR301
PAR302
COR3
PAR401 PAR402
COR4
PAR501
PAR502
COR5
PAR602
PAR601
COR6
PAR702
PAR701
COR7
PAR801
PAR802
COR8
PAR902
PAR901
COR9
PAR1001
PAR1002
COR10
PAR1102
PAR1101
COR11
PAR1201 PAR1202
COR12
PAR1301
PAR1302
COR13
PAR1402
PAR1401
COR14
PAR1502
PAR1501
COR15
PAR1602
PAR1601
COR16
PAR1702 PAR1701
COR17
PAR1802
PAR1801
COR18
PAR1902 PAR1901
COR19
PAR2001 PAR2002
COR20
PAR2101
PAR2102
COR21
PAR2202 PAR2201
COR22
PAR2302 PAR2301
COR23
PAR2402 PAR2401
COR24
PAR2502 PAR2501
COR25
PAR2602 PAR2601
COR26
PAR2702 PAR2701
COR27
PAR2802 PAR2801
COR28
PAR2902 PAR2901
COR29
PAR3002
PAR3001
COR30
PAR3101
PAR3102
COR31
PAR3202
PAR3201
COR32
PAR3301 PAR3302
COR33
PAR3401
PAR3402
COR34
PAR3502
PAR3501
COR35
PAR3601
PAR3602
COR36
PAR3702
PAR3701
COR37
PAR3802
PAR3801
COR38
PAR3901
PAR3902
COR39
PAR4001
PAR4002
COR40
PAR4101 PAR4102
COR41
PAR4201 PAR4202
COR42
PAR4301
PAR4302
COR43
PAR4401
PAR4402
COR44
PAR4502
PAR4501
COR45
PAR4601
PAR4602
COR46
PAR4702
PAR4701
COR47
PAS104
PAS103
PAS101
PAS102
COS1
PAT103
PAT102
PAT101
PAT104
COT1
PAT203
PAT202
PAT201
PAT204
COT2
PAT303
PAT302
PAT301
COT3
PAT403
PAT402
PAT401
COT4
PAT503
PAT502
PAT501
COT5
PAT603
PAT602
PAT601
COT6
PAT703 PAT702
PAT701
COT7
PAT801
PAT802
PAT803
PAT806
PAT805
PAT804
COT8
PAT903
PAT902 PAT901
COT9
PAT1003
PAT1002
PAT1001
COT10
PATP101
COTP1
PATP201
COTP2
PATP301
COTP3
PATP401
COTP4
PATP501
COTP5
PATP601
COTP6
PATP701
COTP7
PATP801
COTP8
PATP901
COTP9
PATP1001
COTP10
PATP1101
COTP11
PATP1201
COTP12
PATP1301
COTP13
PATP1401
COTP14
PATP1501
COTP15
PATP1601
COTP16
PATR106
PATR101
PATR1012
PATR1011
PATR108
PATR107
PATR105
PATR104
PATR103
PATR102
COTR1
A
B
C
D
E
F
G
H
I
Figure 7 Layout blocks
The dierent blocks are marked with character A to I.
• A: DC-DC converter IR2085SPBF on primary side to generate the isolated power supply for gate driver
• B: Secondary isolated power supply for TOP domain
• C: Secondary isolated power supply for BOTTOM domain
• D: High side gate driver
• E: Low side gate driver
• F: Feedback signal to report over current information, the 5 V voltage regulator and current comparator
• G: Error flip-flop, digital connector CON1 and reset button S1
• H: Power connectors
• I: Supply connectors and the 5 V voltage regulator
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
3 PCB Layout
15 1.0
2017-11-30
3.1 Assembly drawing
PAC101
PAC102
COC1
PAC301
PAC302
COC3
PAC401
PAC402
COC4
PAC502
PAC501
COC5
PAC601
PAC602
COC6
PAC702 PAC701
COC7
PAC801
PAC802
COC8
PAC901
PAC902
COC9
PAC1001
PAC1002
COC10
PAC1101
PAC1102
COC11
PAC1302
PAC1301
COC13
PAC1401
PAC1402
COC14
PAC1501
PAC1502
COC15
PAC1601
PAC1602
COC16
PAC1702 PAC1701
COC17
PAC1801
PAC1802
COC18
PAC1901
PAC1902
COC19
PAC2001
PAC2002
COC20
PAC2101
PAC2102
COC21
PAC2202
PAC2201
COC22
PAC2301 PAC2302
COC23
PAC2401 PAC2402
COC24
PAC2501
PAC2502
COC25
PAC2601
PAC2602
COC26
PAC2701
PAC2702
COC27
PAC2801 PAC2802
COC28
PAC2901
PAC2902
COC29
PAC3001
PAC3002
COC30
PAC3101
PAC3102
COC31
PAC3201
PAC3202
COC32
PAC3301
PAC3302
COC33
PAC3401
PAC3402
COC34
PAC3501
PAC3502
COC35
PAC3601
PAC3602
COC36
PAC3701
PAC3702
COC37
PAC3801
PAC3802
COC38
PAC3902
PAC3901
COC39
PAC4001
PAC4002
COC40
PAC4101
PAC4102
COC41
PAC4201
PAC4202
COC42
PAC4301
PAC4302
COC43
PAC4401
PAC4402
COC44
PAC4501
PAC4502
COC45
PACON101
PACON102
PACON103
PACON104
PACON105
PACON106 PACON107
PACON108
PACON109
PACON1010
COCON1
PAD101
PAD102
COD1
PAD201
PAD202
COD2
PAD302
PAD301
COD3
PAD401
PAD402
COD4
PAD501
PAD502
COD5
PAD601
PAD602
COD6
PAD701 PAD702
COD7
PAD801
PAD802
COD8
PAD901
PAD902
COD9
PAD1001
PAD1002
COD10
PAD1101 PAD1102
COD11
PAFID101
COFID1
PAFID201
COFID2
PAFID301
COFID3
PAIC104
PAIC103
PAIC102
PAIC101
COIC1
PAIC208
PAIC207
PAIC206
PAIC205
PAIC204
PAIC203
PAIC202
PAIC201
COIC2
PAIC308
PAIC307
PAIC306
PAIC305 PAIC304
PAIC303
PAIC302
PAIC301
COIC3
PAIC408
PAIC407
PAIC406
PAIC405
PAIC404
PAIC403
PAIC402
PAIC401
COIC4
PAIC501
PAIC502
PAIC503
PAIC506
PAIC505
PAIC504
COIC5
PAIC604
PAIC603
PAIC602
PAIC601
COIC6
PAIC701 PAIC702
PAIC703
PAIC704
PAIC708 PAIC707
PAIC706
PAIC705
COIC7
PAJ101
PAJ102
COJ1
PAJ201
PAJ202
COJ2
PAJ301
PAJ302
COJ3
PAJ401
PAJ402
COJ4
PAJ501
PAJ502
COJ5
PALED102
PALED101
COLED1
PALED202
PALED201
COLED2
PALED302
PALED301
COLED3
PALED402
PALED401
COLED4
PALED502
PALED501
COLED5
PALED602
PALED601
COLED6
PAR101
PAR102
COR1
PAR202
PAR201
COR2
PAR301
PAR302
COR3
PAR401 PAR402
COR4
PAR501
PAR502
COR5
PAR602
PAR601
COR6
PAR702
PAR701
COR7
PAR801
PAR802
COR8
PAR902
PAR901
COR9
PAR1001
PAR1002
COR10
PAR1102
PAR1101
COR11
PAR1201 PAR1202
COR12
PAR1301
PAR1302
COR13
PAR1402
PAR1401
COR14
PAR1502
PAR1501
COR15
PAR1602
PAR1601
COR16
PAR1702 PAR1701
COR17
PAR1802
PAR1801
COR18
PAR1902 PAR1901
COR19
PAR2001 PAR2002
COR20
PAR2101
PAR2102
COR21
PAR2202 PAR2201
COR22
PAR2302 PAR2301
COR23
PAR2402 PAR2401
COR24
PAR2502 PAR2501
COR25
PAR2602 PAR2601
COR26
PAR2702 PAR2701
COR27
PAR2802 PAR2801
COR28
PAR2902 PAR2901
COR29
PAR3002
PAR3001
COR30
PAR3101
PAR3102
COR31
PAR3202
PAR3201
COR32
PAR3301 PAR3302
COR33
PAR3401
PAR3402
COR34
PAR3502
PAR3501
COR35
PAR3601
PAR3602
COR36
PAR3702
PAR3701
COR37
PAR3802
PAR3801
COR38
PAR3901
PAR3902
COR39
PAR4001
PAR4002
COR40
PAR4101 PAR4102
COR41
PAR4201 PAR4202
COR42
PAR4301
PAR4302
COR43
PAR4401
PAR4402
COR44
PAR4502
PAR4501
COR45
PAR4601
PAR4602
COR46
PAR4702
PAR4701
COR47
PAS104
PAS103
PAS101
PAS102
COS1
PAT103
PAT102
PAT101
PAT104
COT1
PAT203
PAT202
PAT201
PAT204
COT2
PAT303
PAT302
PAT301
COT3
PAT403
PAT402
PAT401
COT4
PAT503
PAT502
PAT501
COT5
PAT603
PAT602
PAT601
COT6
PAT703 PAT702
PAT701
COT7
PAT801
PAT802
PAT803
PAT806
PAT805
PAT804
COT8
PAT903
PAT902 PAT901
COT9
PAT1003
PAT1002
PAT1001
COT10
PATP101
COTP1
PATP201
COTP2
PATP301
COTP3
PATP401
COTP4
PATP501
COTP5
PATP601
COTP6
PATP701
COTP7
PATP801
COTP8
PATP901
COTP9
PATP1001
COTP10
PATP1101
COTP11
PATP1201
COTP12
PATP1301
COTP13
PATP1401
COTP14
PATP1501
COTP15
PATP1601
COTP16
PATR106
PATR101
PATR1012
PATR1011
PATR108
PATR107
PATR105
PATR104
PATR103
PATR102
COTR1
Figure 8 Assembly Drawing top side PCB
The assembly drawing is showing the assembly top side of the PCB. The components are marked with the
respective identifiers. The components marked with red crosses are not populated and can be installed
optional by the user.
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
3 PCB Layout
16 1.0
2017-11-30
PAC202
PAC201
COC2
PAC1202
PAC1201
COC12
Figure 9 Assembly Drawing bottom side PCB
This is the bottom side of the PCB. The two capacitors C2 and C12 are not populated and therefore marked with
a red cross. The capacitors can be installed optional in case they are needed.
PAC101
PAC102
COC1
PAC202
PAC201
COC2
PAC301
PAC302
COC3
PAC401
PAC402
COC4
PAC502
PAC501
COC5
PAC601
PAC602
COC6
PAC702
PAC701
COC7
PAC801
PAC802
COC8
PAC901
PAC902
COC9
PAC1001
PAC1002
COC10
PAC1101 PAC1102
COC11
PAC1202
PAC1201
COC12
PAC1302
PAC1301
COC13
PAC1401
PAC1402
COC14
PAC1501
PAC1502
COC15
PAC1601
PAC1602
COC16
PAC1702
PAC1701
COC17
PAC1801
PAC1802
COC18
PAC1901 PAC1902
COC19
PAC2001
PAC2002
COC20
PAC2101
PAC2102
COC21
PAC2202
PAC2201
COC22
PAC2301 PAC2302
COC23
PAC2401 PAC2402
COC24
PAC2501
PAC2502
COC25
PAC2601
PAC2602
COC26
PAC2701
PAC2702
COC27
PAC2801 PAC2802
COC28
PAC2901
PAC2902
COC29
PAC3001
PAC3002
COC30
PAC3101
PAC3102
COC31
PAC3201
PAC3202
COC32
PAC3301 PAC3302
COC33
PAC3401 PAC3402
COC34
PAC3501
PAC3502
COC35
PAC3601 PAC3602
COC36
PAC3701
PAC3702
COC37
PAC3801
PAC3802
COC38
PAC3902
PAC3901
COC39
PAC4001 PAC4002
COC40
PAC4101
PAC4102
COC41
PAC4201
PAC4202
COC42
PAC4301
PAC4302
COC43
PAC4401 PAC4402
COC44
PAC4501
PAC4502
COC45
PACON101
PACON102 PACON103
PACON104 PACON105
PACON106
PACON107
PACON108 PACON109
PACON1010
COCON1
PAD101
PAD102
COD1
PAD201
PAD202
COD2
PAD302
PAD301
COD3
PAD401
PAD402
COD4
PAD501
PAD502
COD5
PAD601
PAD602
COD6
PAD701 PAD702
COD7
PAD801
PAD802
COD8
PAD901
PAD902
COD9
PAD1001
PAD1002
COD10
PAD1101 PAD1102
COD11
PAFID101
COFID1
PAFID201
COFID2
PAFID301
COFID3
PAIC104
PAIC103
PAIC102
PAIC101
COIC1
PAIC208
PAIC207
PAIC206
PAIC205
PAIC204
PAIC203
PAIC202
PAIC201
COIC2
PAIC308
PAIC307
PAIC306
PAIC305
PAIC304
PAIC303
PAIC302
PAIC301
COIC3
PAIC408
PAIC407
PAIC406
PAIC405
PAIC404
PAIC403
PAIC402
PAIC401
COIC4
PAIC501
PAIC502
PAIC503
PAIC506
PAIC505
PAIC504
COIC5
PAIC604
PAIC603
PAIC602
PAIC601
COIC6
PAIC701
PAIC702
PAIC703 PAIC704
PAIC708
PAIC707
PAIC706 PAIC705
COIC7
PAJ101
PAJ102
COJ1
PAJ201
PAJ202
COJ2
PAJ301
PAJ302
COJ3
PAJ401
PAJ402
COJ4
PAJ501
PAJ502
COJ5
PALED102
PALED101
COLED1
PALED202
PALED201
COLED2
PALED302
PALED301
COLED3
PALED402
PALED401
COLED4
PALED502
PALED501
COLED5
PALED602
PALED601
COLED6
PAR101
PAR102
COR1
PAR202
PAR201
COR2
PAR301
PAR302
COR3
PAR401
PAR402
COR4
PAR501
PAR502
COR5
PAR602
PAR601
COR6
PAR702
PAR701
COR7
PAR801
PAR802
COR8
PAR902
PAR901
COR9
PAR1001 PAR1002
COR10
PAR1102
PAR1101
COR11
PAR1201
PAR1202
COR12
PAR1301 PAR1302
COR13
PAR1402
PAR1401
COR14
PAR1502
PAR1501
COR15
PAR1602
PAR1601
COR16
PAR1702 PAR1701
COR17
PAR1802 PAR1801
COR18
PAR1902 PAR1901
COR19
PAR2001 PAR2002
COR20
PAR2101
PAR2102
COR21
PAR2202
PAR2201
COR22
PAR2302
PAR2301
COR23
PAR2402
PAR2401
COR24
PAR2502
PAR2501
COR25
PAR2602
PAR2601
COR26
PAR2702
PAR2701
COR27
PAR2802
PAR2801
COR28
PAR2902
PAR2901
COR29
PAR3002
PAR3001
COR30
PAR3101
PAR3102
COR31
PAR3202
PAR3201
COR32
PAR3301
PAR3302
COR33
PAR3401
PAR3402
COR34
PAR3502
PAR3501
COR35
PAR3601
PAR3602
COR36
PAR3702
PAR3701
COR37
PAR3802
PAR3801
COR38
PAR3901
PAR3902
COR39
PAR4001 PAR4002
COR40
PAR4101
PAR4102
COR41
PAR4201
PAR4202
COR42
PAR4301
PAR4302
COR43
PAR4401 PAR4402
COR44
PAR4502
PAR4501
COR45
PAR4601
PAR4602
COR46
PAR4702
PAR4701
COR47
PAS104
PAS103
PAS101
PAS102
COS1
PAT103
PAT102
PAT101
PAT104
COT1
PAT203
PAT202
PAT201
PAT204
COT2
PAT303
PAT302
PAT301
COT3
PAT403
PAT402
PAT401
COT4
PAT503
PAT502
PAT501
COT5
PAT603
PAT602
PAT601
COT6
PAT703
PAT702
PAT701
COT7
PAT801
PAT802
PAT803
PAT806
PAT805
PAT804
COT8
PAT903
PAT902
PAT901
COT9
PAT1003
PAT1002
PAT1001
COT10
PATP101
COTP1
PATP201
COTP2
PATP301
COTP3
PATP401
COTP4
PATP501
COTP5
PATP601
COTP6
PATP701
COTP7
PATP801
COTP8
PATP901
COTP9
PATP1001
COTP10
PATP1101
COTP11
PATP1201
COTP12
PATP1301
COTP13
PATP1401
COTP14
PATP1501
COTP15
PATP1601
COTP16
PATR106
PATR101
PATR1012
PATR1011
PATR108
PATR107
PATR105
PATR104
PATR103
PATR102
COTR1
Figure 10 PCB layer TOP
This is the PCB layer 1, the top side of the board.
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
3 PCB Layout
17 1.0
2017-11-30
PAC101
PAC102
COC1
PAC202
PAC201
COC2
PAC301
PAC302
COC3
PAC401
PAC402
COC4
PAC502
PAC501
COC5
PAC601
PAC602
COC6
PAC702
PAC701
COC7
PAC801
PAC802
COC8
PAC901
PAC902
COC9
PAC1001
PAC1002
COC10
PAC1101 PAC1102
COC11
PAC1202
PAC1201
COC12
PAC1302
PAC1301
COC13
PAC1401
PAC1402
COC14
PAC1501
PAC1502
COC15
PAC1601
PAC1602
COC16
PAC1702
PAC1701
COC17
PAC1801
PAC1802
COC18
PAC1901 PAC1902
COC19
PAC2001
PAC2002
COC20
PAC2101
PAC2102
COC21
PAC2202
PAC2201
COC22
PAC2301 PAC2302
COC23
PAC2401 PAC2402
COC24
PAC2501
PAC2502
COC25
PAC2601
PAC2602
COC26
PAC2701
PAC2702
COC27
PAC2801 PAC2802
COC28
PAC2901
PAC2902
COC29
PAC3001
PAC3002
COC30
PAC3101
PAC3102
COC31
PAC3201
PAC3202
COC32
PAC3301 PAC3302
COC33
PAC3401 PAC3402
COC34
PAC3501
PAC3502
COC35
PAC3601 PAC3602
COC36
PAC3701
PAC3702
COC37
PAC3801
PAC3802
COC38
PAC3902
PAC3901
COC39
PAC4001 PAC4002
COC40
PAC4101
PAC4102
COC41
PAC4201
PAC4202
COC42
PAC4301
PAC4302
COC43
PAC4401 PAC4402
COC44
PAC4501
PAC4502
COC45
PACON101
PACON102 PACON103
PACON104 PACON105
PACON106
PACON107
PACON108 PACON109
PACON1010
COCON1
PAD101
PAD102
COD1
PAD201
PAD202
COD2
PAD302
PAD301
COD3
PAD401
PAD402
COD4
PAD501
PAD502
COD5
PAD601
PAD602
COD6
PAD701 PAD702
COD7
PAD801
PAD802
COD8
PAD901
PAD902
COD9
PAD1001
PAD1002
COD10
PAD1101 PAD1102
COD11
PAFID101
COFID1
PAFID201
COFID2
PAFID301
COFID3
PAIC104
PAIC103
PAIC102
PAIC101
COIC1
PAIC208
PAIC207
PAIC206
PAIC205
PAIC204
PAIC203
PAIC202
PAIC201
COIC2
PAIC308
PAIC307
PAIC306
PAIC305
PAIC304
PAIC303
PAIC302
PAIC301
COIC3
PAIC408
PAIC407
PAIC406
PAIC405
PAIC404
PAIC403
PAIC402
PAIC401
COIC4
PAIC501
PAIC502
PAIC503
PAIC506
PAIC505
PAIC504
COIC5
PAIC604
PAIC603
PAIC602
PAIC601
COIC6
PAIC701
PAIC702
PAIC703 PAIC704
PAIC708
PAIC707
PAIC706 PAIC705
COIC7
PAJ101
PAJ102
COJ1
PAJ201
PAJ202
COJ2
PAJ301
PAJ302
COJ3
PAJ401
PAJ402
COJ4
PAJ501
PAJ502
COJ5
PALED102
PALED101
COLED1
PALED202
PALED201
COLED2
PALED302
PALED301
COLED3
PALED402
PALED401
COLED4
PALED502
PALED501
COLED5
PALED602
PALED601
COLED6
PAR101
PAR102
COR1
PAR202
PAR201
COR2
PAR301
PAR302
COR3
PAR401
PAR402
COR4
PAR501
PAR502
COR5
PAR602
PAR601
COR6
PAR702
PAR701
COR7
PAR801
PAR802
COR8
PAR902
PAR901
COR9
PAR1001 PAR1002
COR10
PAR1102
PAR1101
COR11
PAR1201
PAR1202
COR12
PAR1301 PAR1302
COR13
PAR1402
PAR1401
COR14
PAR1502
PAR1501
COR15
PAR1602
PAR1601
COR16
PAR1702 PAR1701
COR17
PAR1802 PAR1801
COR18
PAR1902 PAR1901
COR19
PAR2001 PAR2002
COR20
PAR2101
PAR2102
COR21
PAR2202
PAR2201
COR22
PAR2302
PAR2301
COR23
PAR2402
PAR2401
COR24
PAR2502
PAR2501
COR25
PAR2602
PAR2601
COR26
PAR2702
PAR2701
COR27
PAR2802
PAR2801
COR28
PAR2902
PAR2901
COR29
PAR3002
PAR3001
COR30
PAR3101
PAR3102
COR31
PAR3202
PAR3201
COR32
PAR3301
PAR3302
COR33
PAR3401
PAR3402
COR34
PAR3502
PAR3501
COR35
PAR3601
PAR3602
COR36
PAR3702
PAR3701
COR37
PAR3802
PAR3801
COR38
PAR3901
PAR3902
COR39
PAR4001 PAR4002
COR40
PAR4101
PAR4102
COR41
PAR4201
PAR4202
COR42
PAR4301
PAR4302
COR43
PAR4401 PAR4402
COR44
PAR4502
PAR4501
COR45
PAR4601
PAR4602
COR46
PAR4702
PAR4701
COR47
PAS104
PAS103
PAS101
PAS102
COS1
PAT103
PAT102
PAT101
PAT104
COT1
PAT203
PAT202
PAT201
PAT204
COT2
PAT303
PAT302
PAT301
COT3
PAT403
PAT402
PAT401
COT4
PAT503
PAT502
PAT501
COT5
PAT603
PAT602
PAT601
COT6
PAT703
PAT702
PAT701
COT7
PAT801
PAT802
PAT803
PAT806
PAT805
PAT804
COT8
PAT903
PAT902
PAT901
COT9
PAT1003
PAT1002
PAT1001
COT10
PATP101
COTP1
PATP201
COTP2
PATP301
COTP3
PATP401
COTP4
PATP501
COTP5
PATP601
COTP6
PATP701
COTP7
PATP801
COTP8
PATP901
COTP9
PATP1001
COTP10
PATP1101
COTP11
PATP1201
COTP12
PATP1301
COTP13
PATP1401
COTP14
PATP1501
COTP15
PATP1601
COTP16
PATR106
PATR101
PATR1012
PATR1011
PATR108
PATR107
PATR105
PATR104
PATR103
PATR102
COTR1
Figure 11 PCB layer BOTTOM
This is the PCB layer 2, the bottom side of the board
4 Bill of material
The BOM lists all components used for the PCB
Item Designator Quantity Description Manufacturer PartNumber
1 C1 1 CAP, CERM, 10µF, 25V, +/-
10%, X7R, 1206
MuRata GRM31CR71E106KA12L
2 C3, C9, C10, C19,
C20, C23, C26, C27,
C28, C30, C32, C33,
C34, C35, C37, C41,
C42, C43, C44, C45
20 CAP, CERM, 4.7µF, 25V, +/-
10%, X7R, 0805
MuRata GRM21BR71E475KA73L
3 C4, C8, C11, C15,
C16, C18, C24, C25,
C29, C36
10 CAP, CERM, 0.1µF, 50V, +/-
10%, X7R, 0805
MuRata GRM21BR71H104KA01L
4 C5, C13 2 CAP, CERM, 0.25uF, 900V,
20%, CeraLink
TDK Z63000Z2910Z 1Z21
5 C21, C40 2 CAP, CERM, 100pF, 50V, +/-
5%, NP0, 0805
MuRata GRM2165C1H101JA01D
6 C22, C39 2 CAP, CERM, 0.001µF, 50V,
+/- 10%, X7R, 0603
MuRata GRM188R71H102KA01D
7 C31 1 CAP, CERM, 1µF, 50V, +/-
10%, X7R, 0805
MuRata GRM21BR71H105KA12L
8 C38 1 CAP, CERM, 1µF, 50V, +/-
10%, X7R, 1206
MuRata GRM31CR71H105KA61L
9 CON1 1 Header, 100mil, 5x2, Gold,
TH
Samtec TSW-105-07-G-D
10 D1, D2, D4, D5, D7,
D8, D9, D11
8 Diode, Schottky, 40 V, 0.75
A, AEC-Q101, SOD-323
Infineon
Technologies
BAT165
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
4 Bill of material
18 1.0
2017-11-30
11 D3 1 Diode, Schottky, 40 V, 1A,
AEC-Q101, DO214AC
Vishay
Semiconductor
SS14-E3/61T
12 D6, D10 2 Diode, Zener, 5.6 V, 300
mW, SOD-523
Diodes Inc. BZT52C5V6T-7
13 FID1, FID2, FID3 3 Fiducial mark. There is
nothing to buy or mount.
N/A N/A
14 IC1, IC6 2 Low Drop Fixed Voltage
Regulator, 5.5 to 40 V
Supply, 5 V Output, -40 to
150 degC, PG-SOT223
(SC-73), Reel, Green
Infineon
Technologies
TLE42644G
15 IC2, IC3, IC4 3 Single channel IGBT gate
driver IC in wide body
package
Infineon
Technologies
1EDC20H12AH or
1EDI20H12AHdepend on
board version
16 IC5 1 Rail-to-Rail Input and
Output, 0.95nV/√Hz Low
Noise, Op Amp Family
Linear
Technology
LT6200CS6-10#TRMPBF
17 IC7 1 HIGH SPEED, 100V, SELF
OSCILLATING 50% DUTY
CYCLE, HALF-BRIDGE
DRIVER
International
Rectifier
IR2085SPBF
18 J1, J2, J3 3 TERM BLOCK 2POS 5mm,
TH
Phoenix
Contact
MKDSN 1,5/ 2-5,08
19 J4, J5 2 Header, 100mil, 2x1, Gold,
TH
Samtec TSW-102-07-G-S
20 LED1, LED2, LED5,
LED6
4 LED, Green, SMD Lite-On LTST-C190GKT
21 LED3 1 LED, Yellow, SMD Lite-On LTST-C190YKT
22 LED4 1 LED, Red, SMD Lite-On LTST-C190CKT
23 R1 1 RES, 100R, 1%, 0.1W, 0603 Vishay-Dale CRCW0603100RFKEA
24 R2 1 RES, 270R, 1%, 0.1W, 0603 Vishay-Dale CRCW0603270RFKEA
25 R3, R5, R10, R13 4 RES, 10R, 1%, 0.25W, 1206 Vishay-Dale CRCW120610R0FKEA
26 R4, R6, R12, R15,
R20
5 RES, 0R, 1%, 0.1W, 0603 Vishay-Dale CRCW0603000Z0EA
27 R8, R31 2 RES, 47k, 1%, 0.1W, 0603 Vishay-Dale CRCW060347K0FKEA
28 R9 1 RES, 10k, 1%, 0.1W, 0603 Vishay-Dale CRCW060310K0FKEA
29 R11 1 RES, 51k, 1%, 0.1W, 0603 Vishay-Dale CRCW060351K0FKEA
30 R14 1 RES, 1M, 1%, 0.1W, 0603 Vishay-Dale CRCW06031M00FKEA
31 R17, R19, R21, R22,
R24, R42
6 RES, 1k, 1%, 0.1W, 0603 Vishay-Dale CRCW06031K00FKEA
32 R18 1 RES, 0R003, 1%, 3W, 2512 Bourns Inc. CRE2512-FZ-R003E-3
33 R23, R27, R28 3 RES, 3k3, 1%, 0.1W, 0603 Vishay-Dale CRCW06033K30FKEA
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
4 Bill of material
19 1.0
2017-11-30
34 R25, R26 2 RES, 7k5, 1%, 0.1W, 0603 Vishay-Dale CRCW06037K50FKEA
35 R29, R30, R32 3 RES, 15k, 1%, 0.1W, 0603 Vishay-Dale CRCW060315K0FKEA
36 R33, R36, R41, R46 4 RES, 0R15, 1%, 0.2W, 0603 Vishay-Dale RCWE0603R150FKEA
37 R34, R43 2 RES, 3k65, 1%, 0.1 W, 0603 Vishay-Dale CRCW06033K65FKEA
38 R35, R45 2 RES, 100k, 1%, 0.1W, 0603 Vishay-Dale CRCW0603100KFKEA
39 R37 1 RES, 68k, 1%, 0.1W, 0603 Vishay-Dale CRCW060368K0FKEA
40 R38, R47 2 RES, 820R, 1%, 0.1W, 0603 Vishay-Dale CRCW0603820RFKEA
41 R39, R40 2 RES, 15R, 1%, 0.25W, 1206 Vishay-Dale CRCW120615R0FKEA
42 R44 1 RES, 0R22, 1%, 0.5W, 1206 Vishay-Dale RCWE1206R220FKEA
43 S1 1 Switch, Tactile, SPST-NO,
0.1A, 16V, SMT
Bourns 7914G-1-000E
44 T1, T2 2 CoolSiC MOSFET 1200V Infineon
Technologies
IZM120R045M1
45 T3, T4, T5, T6, T7 5 Transistor, NPN, 30 V, 0.1
A, SOT-23
ON
Semiconductor
BC848A
46 T8 1 MOSFET, 2-CH, N-CH, 30 V,
2.3 A, TSOP-6_DUAL
Infineon
Technologies
BSL306N
47 T9, T10 2 Transistor, PNP, 45 V, 0.1 A,
SOT-23
ON
Semiconductor
BC857C
48 TR1 1 Drive Transformer, SMT Vacuumschmel
ze
T60403_F5046-X007
49 C2, C12 0 CAP, Film, 0.33µF, 450V,
+/- 5%, AEC-Q200 Grade 1,
TH
TDK B32522N6334J000
50 C6, C14 0 CAPACITOR_NOT
ASSEMBLED 0805
ANY 0805_NOT_ASSEMBLED
51 C7, C17 0 CAP, CERM, 0.001µF, 50V,
+/- 10%, X7R, 0603
MuRata GRM188R71H102KA01D
52 R7, R16 0 RESISTOR_NOT
ASSEMBLED 0603
ANY 0603_NOT_ASSEMBLED
Evaluation Board EVAL-1EDI20H12AH-SIC / EVAL-1EDC20H12AH-SIC
1EDI20H12AH/1EDC20H12AH with CoolSiC™ MOSFET IMZ120R045M1
4 Bill of material
20 1.0
2017-11-30
Trademarks
All referenced product or service names and trademarks are the property of their respective owners.
Edition 2017-11-30
Published by
Infineon Technologies AG
81726 Munich, Germany
© 2017 Infineon Technologies AG
All Rights Reserved.
Do you have a question about any
aspect of this document?
Email: erratum@infineon.com
Document reference
IFX-syf1496390318330
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