User manual Please read the Important Notice and Warnings at the end of this document Rev.1.0
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TLD5542-1HIPOW_EVAL board
Evaluation board manual
About this document
Scope and purpose
The scope of this user manual is to provide instructions on the use of the TLD5542-1HIPOW-EVAL evaluation
board.
TLD5542-1HIPOW_EVAL board is a 4-switch synchronous buck-boost regulator that demonstrates the high-
power capability of the TLD5542-1. The output is adjustable from 5 V to 24 V and the maximum output current is
25 A for up to 300 W power delivery without heatsink.
The switching frequency is 250 kHz and efficiency can go up to 98%.
The board can be configured as current regulator or voltage regulator.
Figure 1 TLD5542-1HI_POW_EVAL device board
Intended audience
Hardware engineers, software engineers, system architects
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TLD5542-1HIPOW_EVAL board Evaluation board manual
Description
Table of contents
About this document ......................................................................................................................... 1
Table of contents .............................................................................................................................. 2
1 Description .............................................................................................................................. 3
2 Quick start procedure ............................................................................................................... 4
2.1 Setup as current regulator with no microcontroller .............................................................................. 4
2.2 Board set up as voltage regulator with no microcontroller nor PC GUI ................................................ 6
2.3 Board set up as voltage/current regulator with PC GUI ......................................................................... 7
3 Infineon μIO stick and Infineon Toolbox ..................................................................................... 9
3.1 Install and launch Config Wizard .......................................................................................................... 10
4 Board control with PC GUI ........................................................................................................11
4.1 Basic user interface ............................................................................................................................... 11
4.2 Engineering user interface .................................................................................................................... 12
5 Operating range and power derating ........................................................................................14
6 Electrical characteristics ..........................................................................................................15
7 Bill of material, PCB layout and schematic .................................................................................16
8 List of references .....................................................................................................................17
Revision history ...............................................................................................................................18
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TLD5542-1HIPOW_EVAL board Evaluation board manual
Description
1 Description
The H-bridge architecture is amongst the most efficient buck-boost topologies for high current applications. The
TLD5542-1 provides complete control and diagnostics through the SPI interface. The TLD5542-1 can also be used
in applications without microcontroller because of the limp home mode.
The TLD5542-1HIPOW_EVAL demonstrates the high-power capability of the TLD5542-1 as current or voltage
regulator.
The default configuration is adjustable voltage regulator with 25 A maximum output current. By reconfiguring
few solder jumps, the board becomes a current regulator for battery or supercapacitors charger applications.
The board can be controlled by the PC GUI via the Infineon µIO stick (see Chapter 4).
Figure 2 TLD5542-1 as battery charger
Figure 3 TLD5542-1 as voltage regulator
There are 2 trimmers, RVOLT and RSET, to easily adjust output voltage and output current in the entire range
(see table 6).
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TLD5542-1HIPOW_EVAL board Evaluation board manual
Quick start procedure
2 Quick start procedure
Below, step by step procedures are laid out for setup and running the TLD5542-1HIPOW_EVAL in all available
configurations.
Installation procedure for PC GUI (graphical user interface) and μIO stick interface is described in Chapter 4.
2.1 Setup as current regulator with no microcontroller
Setup of the board as simple current regulator, without a microcontroller connection and without µIO stick nor
PC GUI.
The device is configured in limp home. All the registers are set to their default value and the analog dimming is
provided by the voltage on the SET pin which is adjustable with RSET trimmer.
Table 1 Jumper reference and setup for current regulator
Jumper reference Status Description
JV1 OPEN Bypass output current shunt resistor
JV2 OPEN Disconnect voltage regulator feedback voltage divider
JI1 CLOSE Connect current shunt
JVDD CLOSE Connect Internal 5V IVCC to VDD
J1 CLOSE Bypass input current shunt resistor
In order to run the board in this configuration
1. Configure solder jumper for LED driver configuration as in Figure 4
2. Connect LHI (limp home) and J_PWMI jumpers
Figure 4 Jumpers to be set for current regulator mode no µC
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Quick start procedure
3. Connect the load (Note that the output current can be as high as 30 A if SET is adjusted to maximum)
4. Connect a 12 V power supply to the VIN connector
5. Rotate RSET trimmer completely anti-clockwise to lower the output current to the minimum
6. Connect the EN jumper to start providing output current to the load
7. Adjust IOUT with RSET (output current should be higher than 2 A for better transient response)
Figure 5 Connect power supply and load, adjust output current
Warning:
1. If the load is a battery or a supercapacitor, do not use PWMI to stop output current, use EN instead.
Otherwise, the device will affect a startup without soft-start assistance sinking high current from
the charging battery at the VOUT connector.
2. The board is not reverse protected at the input nor at the output, if a battery is connected with
reverse polarity the board or the battery may catch fire.
Correct start-up sequence, to provide current at the load is:
• Set EN to ON with PWMI kept to OFF (blue LED on the PCB turns ON)
• Set desired analog dimming level by using SET pin if limp home mode, otherwise operate via SPI
• Set PWMI to ON
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Quick start procedure
2.2 Board set up as voltage regulator with no microcontroller nor PC GUI
The following describes how to setup the board as a simple voltage regulator without PC GUI. No
microcontroller connection and no µIO stick is present.
Table 2 Jumper reference and setup for voltage regulator
Jumper reference Status Description
JV1 CLOSE Bypass output current shunt resistor
JV2 CLOSE Connect voltage regulator feedback voltage divider
JI1 OPEN Disconnect current shunt from FBL
JVDD CLOSE Connect Internal 5V IVCC to VDD
J1 CLOSE Bypass input current shunt resistor
1. Configure all solder jumpers as shown in Figure 6
2. Connect J_EN, LHI and PWMI jumpers
Figure 6 Jumpers to be set for voltage regulator mode no µC
3. Connect a 12 V power supply to the VIN connector
4. Rotate RSET trimmer completely clockwise (100% analog dim, improves transient response and accuracy)
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Quick start procedure
Figure 7 Connect power supply, turn RSET to maximum and adjust VOUT with RVOLT
5. Rotate RVOLT trimmer to obtain the desired VOUT
6. Connect the load to VOUT
2.3 Board set up as voltage/current regulator with PC GUI
The TLD5542-1 HIPOW_EVAL can be controlled by the PC GUI via a µIO stick. All the plug jumpers have to be
removed, or the µIO will not be able to control the TLD5542-1 properly.
1. Set solder jumpers for voltage (Chapter 2.1) or current (Chapter 2.2) regualtor
2. Remove jumper plugs J_LHI, J_PWMI, J_EN
Figure 8 Control with μIO stick board preparation
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Quick start procedure
3. Connect the μIO to J_uIO connector (pin 1 mark on PCB on RED cable strip) and uIO stick to the PC
Figure 9 Connect μIO stick, power supply, load
4. Launch Infineon Toolbox and the Config Wizard for LED, see chapter 3.1
5. Connect power supply to the VIN connector
6. Adjust for the desired output current/voltage with the GUI (see Chapter 4) and connect the load
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Infineon μIO stick and Infineon Toolbox
3 Infineon μIO stick and Infineon Toolbox
The Infineon μIO stick is an interface device for controlling Infineon boards/kits during run time
through PC.
• Enables the connection between the evaluation board and USB for SPI programming and monitoring
by using the Config Wizard software, which can be downloaded via the Infineon Toolbox [1]
• Plugs into the evaluation board via a standard 16-pin connector and allows easy interface to the
microcontroller via USB for SPI, CAN and LIN communication
Figure 10 Infineon μIO stick
The Infineon Toolbox it is a single platform interface which allows for:
• Quick installation of tools by name or QR code
• Help with documentation
• Viewing and starting installed tools from built-in launcher
• Receiving update notifications
Figure 11 Infineon Toolbox
For details about Infineon toolbox and μIO stick check the Infineon website: Infineon Toolbox.
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Infineon μIO stick and Infineon Toolbox
3.1 Install and launch Config Wizard
1. Open the “Manage tools” tab
2. Search for “Config Wizard for LED” and click on “Install” button
Figure 12 Install Config Wizard for LED
3. Select “My Tools” tab on Infineon Toolbox
4. Press “Start” on the config wizard for LED to start
Figure 13 Start Config Wizard tool
5. Click on TLD5542-1 icon to start the LED GUI interface
Figure 14 Launch TLD5542-1 GUI
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Board control with PC GUI
4 Board control with PC GUI
The TLD5542-1 PC GUI consists of 2 interfaces:
• Basic user interface
• Engineering user interface
The GUI works only if the TLD5542-1 evaluation board is correctly connected to the μIO stick and power supply
is applied to the VIN connector.
4.1 Basic user interface
Basic user interface allows simplified access to the main registers on TLD5542-1 (e.g. analog dimming with a
knob) and provides direct feedback on TLD5542-1 status, showing indicators for each standard diagnosis
register bit.
It is possible to provide EN signal and PWMI without the need for a function generator.
In order to turn on the device press the EN button, the “Active” indicator shall turn on.
Only once the device is on, the desired analog dimming value can be set by the ”Analog Dimming” knob on the
“Dimming” tab.
Correct startup sequence is:
• Have a power supply connected at VIN
• Set EN to ON with PWMI kept to OFF (blue LED on the PCB turns ON)
• Set desired analog dimming level (RSET trimmer if limp home mode otherwise via GUI)
• Set PWMI to ON
Figure 15 TLD5542-1 GUI – Basic user interface
On the “Diagnosis/Monitoring” tab, (see Figure 15) the standard diagnosis register is provided, showing
information on the working status of the device.
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Board control with PC GUI
On the “Compensation Setting” tab (see Figure 16 ), it is possible to tune the compensation transfer function in
order to have the smoothest transition from buck-boost to boost mode, which depends on the switching
frequency (385 kHz for the TLD5542-1 HIPOW _EVAL board)
Figure 16 TLD5542-1 GUI basic user interface – compensation and EMC tabs
4.2 Engineering user interface
The engineering user interface allows the user to send a sequence of SPI commands to the TLD5542-1. PWMI
and EN pin control is also possible on this interface.
The suggested sequence of operations in order to send the SPI commands is as follows:
1. Write the list of SPI commands that has to be sent
2. Turn on the device by pressing the EN button
3. Press the SEND button to send commands on the list, starting from the black row in the list Figure 17
4. Enable the switching activity by pressing PWMI button
Figure 17 TLD5542-1 GUI – Engineering user interface
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Board control with PC GUI
It is possible to describe each command with a comment and to save the list of commands by clicking on the
“Save” button.
It is possible to set the delay applied before executing the next command in the “Delay” column, the accuracy
of the timer is approximately 10 ms.
Figure 18 TLD5542-1 GUI – writing comment - saving command list - delay between commands
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Operating range and power derating
5 Operating range and power derating
The TLD5542-1HIPOW-EVAL has very high efficiency, so it can deliver up to 300 W at the output without a
heatsink at TA = 25°C, for VIN down to 9 V.
Figure 19 Thermal acquisition, voltage REG, VIN = 12 V, VOUT = 12 V, IOUT = 25 A, TA = 25°C no heatsink
Please note that the module does not implement thermal protection, so ensure proper cooling when output
power exceeds the power-derating curve. The heatsink must be positioned below the switching MOSFETs as
shown in Figure 20.
Figure 20 Optional heatsink placement
The heatsink shall be electrically insulated from the PCB, by means of a thermal pad.
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Electrical characteristics
6 Electrical characteristics
Table 3 TLD5542-1 HIPOW -EVAL version S03 P01 – electrical characteristics
Parameter Symbol Value
Unit Note/Test Condition Min. Typ. Max.
Input voltage VIN 7.5 – 35 V Power derating may occur for VIN < 9 V
Output voltage VOUT 2
5 –
24
24 V
Current regulator mode
Voltage regulator mode
Output current IOUT 0 – 25 A
Output power POUT -
300
400
–
W
W
No heatsink VIN 9 V to 35 V, TA = 25°C
With heatsink VIN 9 V to 35 V, TA = 25°C
Switching
frequency
Switching
frequency – 250 – kHz Spread spectrum deviation is present
PWM frequency PWMfreq 100 – 500 Hz –
System
efficiency η –
97
96
– %
Voltage mode: VIN = 12 V VOUT = 12 V IOUT = 25 A
Current mode: VIN = 12 V VOUT = 12 V IOUT = 20 A
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Bill of material, PCB layout and schematic
7 Bill of material, PCB layout and schematic
Table 4 Bill of material
Designator Value Footprint Quantity
C1, C5, C9, C19, C20, C27, C28, C29 10µF 50V X7R 1210 C1210 8
C2, C6, C7, C8, C10, C11, C13, C22 22µF 25V X7R 1210 C1210 8
C4, C69, CSST 22nF 50V C0603 3
C12, C14, C24, C25 470µF 25V PCR1E471MCL1GS CE D10 CASE G 4
C16, C17, C18, C21 330µF 35V PCR1V331MCL1GS CE D10 CASE G 4
C26, C55, CEN 1µF 50V 0805 C0805 3
C56, CBS1, CBS2 100nF 50V C0603 3
CC1 33nF 25V C0603 1
CIVCC 10µF 6,3V 0805 X7R C0805 1
CMP, CSN, EN, EOMFS, GND, GND3, GND4, GND5, IINM, IOUTM, LEDC, LHI, MISO, MOSI, PWMI, SCLK, SET, SST, VDD, VIN, VOUT
Mill-Max 2501-2-00-80-00-00-07-0
– 21
D2, D3, D4, DBS1, DBS2 NXP_BAT46WJ SOD323F 5
GND2, GND-, VIN+, VOUT+ Keystone 575-8 4
IC1 TLD5542-1QV VQFN48 7X7 P05 1
J_EN, J_LHI, J_PWMI TSW-102-08-G-S CON-M-THT-TSW-102-08-G-S
3
J_uIO Header 8X2(tyco 5-146254-8) HDR2X8 1
L1 TDK B82559A5332A024 IND SMD B82559A 1
LED WURTH 150080BS75000 LED 0805 BLU 1
Q1A, Q1B, Q3A, Q3B IAUC80N04S6L032 PG-TDSON-8-33 4
Q2A, Q4A, Q4B IAUC100N04S6L020 PG-TDSON-8-33 3
R1, R9, R17, RC1, RVL, R5, R21 1.5kΩ 1% R0603 7
RFREQ,R89, R90 47kΩ 1% R0603 3
R3,R10,R18 4.7kΩ 1% R0603 3
R4, R7, RG1A, RG1B, RG2A, RG2B, RG3A, RG3B, RG4A, RG4B
1Ω R0603 10
R11, R12, R13, R14, R16 150Ω 1% R0603 5
R2,RVH 24kΩ 1% R0603 2
RSET, RVOLT Bourns 3266Y-1-203LF – 2
RSHO1,RSHO 10mΩ FC4L64R010FER – 2
RSWCS2,RIIN 1.5mΩ PML100HZPJV1L5 – 2
C3, C15, C67, C68, FBH, FBL, G1, G2, G3, G4, IVCC, SWN1, SWN2, uIO_AD0, uIO_GP1, uIO_GP2, uIO_VDD5, VFB, Q2B, R6, R8, RSWCS1
NOT POPULATED – –
Spacer 12mm Wurth 702935000 – 4
A
B
C
D
E
A
B
C
D
E
1 2 3 4 5 6 7 8
1 2 3 4 5 6 7 8
Capacitors are 0603 X7R 10%
Remarks: if not specified differently
connect exposed pad to GND
Place C67 and RVFBL1 close to IC
CSST 22nF 50V
RFREQ
47k 1%
RVL
1k5
1%
RG1A
1
RG2A1
RG3A 1
RG4B1
R6
NO_P
OP
C15
NO_P
OP
R8
NO_P
OP
C3
NO_P
OPCB
S1
100n
F 50
V CBS2
100n
F 50
V
CIVC
C10
uF 6,
3V 08
05 X
7R
VIN44
IIN243
SET22
EN/INUVLO41
COMP19
SOFT_START38
IIN142
PWMI24
IINMON39
SYNC34
IOUTMON16
FREQ35
VDD31
CSN28
SI30
SO27
SCLK29
VS
S2
6
AG
ND
40
IVCC_EXT47
IVCC46
BST13
BST210
HSGD12
SWN14
LSGD16
SWCS17
SGND18
PGND15
SWN29
PGND28
LSGD27
HSGD211
VFB20
FBH13
FBL14
DIM_HALF36
TEST225
LHI37
FILT23
N.C. 1
N.C. 12
N.C. 15
VFB_
VIN
21
EOM
FS32
LEDC
URR
33
N.C.
45
N.C.
48
EPEP
IC1
TLD5
542-
1QV
L1TDK B82559A5332A024
RVH
24k 1%
C110
uF 50
V X7
R 12
10
DBS1
NXP_
BAT4
6WJ
DBS2
NXP_
BAT4
6WJ
C13
22uF
25V
X7R
1210
C722
uF 2
5V X
7R 12
10
C11
22uF
25V
X7R
1210
C55
1uF 50V 0805
C510
uF 50
V X7
R 12
10
C56
100n
F 50
V
C67
NO_P
OP 12
0pF
25V
GND
GND
GND
GND
GND
GND
GND
GND GND
GND
GND
GND
GND
VIN
GND
GND
VCCINT
VCCINT
VCCINT
GND GND
GND
GND
GND
SCLK
MOSI
MISO
CSN
PWM_uIO
GND
30A@
30A@
30A@
diff.
diff.
GND
Date: 01/03/2021 Sheet: 1/1
REV:
TITLE: TLD5542-1HIPOW_EVAL
Document Number: S03
GND
C68
NO_P
OP 22
0pF
50V
BST1
BST2
GND
Place C68 close to IC
D3
NXP_BAT46WJ
D4
NXP_BAT46WJ
CSN
MOSI
MISO
SCLK
Resistors are 0603 5%
REVISION HISTORY FROM S02 to HIGH POW S03changed Q1A to Q4B MOS Changed R5 to 1k5Changed Default Jumpers to VREG
R8947k 1%
R9047k 1%
C69
22nF 50V
GND
Vin
R41
GND
VCCINT
VCCINT
VHB
VDD
21
JV1CLOSE
R17 1k5 1%
C4
22nF 50V
GND
R2 24k 1
% SET
1 23 45 67 89 1011 1213 1415 16
J_uIO
Header 8X2(tyco 5-146254-8)
PWM_uIO
SCLK
CSN
MOSI
MISO
EN_uIO
VDD
VDD
30A@
R104k7 1%
D2
NXP_BAT46WJEN_uIO
R18
4k7
1%
21
JV2
CLOSE
GND
R3
4k7
1%
VHB
GND
R51k
5 1%
COMP
VOUT
GND
GND
C24
470u
F 25
V PC
R1E4
71M
CL1G
S
VReg->Close
Close=>Vreg
Open=>VReg
GND5
GND
Vout
CMP
EN
PWMI
SCLK
CSN
MISO
MOSI
VDDPWMI
PWMI
CSN
MOSI
MISO
SCLK
EN_INUVLO
VDD
uIO connector
GND
GND
LEDC
EOMFS
EOMFS
LEDCURR
LEDCURR
EOMFS
SPI
IOUTMON
GND
COMP
R11 150 1%
R12 150 1%
R13 150 1%
R14 150 1%
VIN+
Keystone 575-8
GND2
Keystone 575-8
VOUT+
Keystone 575-8
GND-
Keystone 575-8
R9
1k5 1%
Q1B
IAU
C80
N04
S6L0
32
Q3A
IAUC80N04S6L032
Q4A
IAUC100N04S6L020
LHI
12
J_LHI
TSW-102-08-G-S
LHI
EN_INUVLO
2 1JVDD
CLOSE
13
2RVOLT
Bourns 20k 3266Y-1-203LF
13
2
20KR
SET
Bou
rns
20k
3266
Y-1
-203
LF
CC1
33nF
25V
RC1
1k5
1%
FB_P
FB_N
VCCINT R11k5 1%
VCCINT
VCCINT
GND
VCCINTIVCCN.P.
12
J_PWMI
TSW-102-08-G-S
12
J_EN
TSW
-102
-08-
G-S
uIO_AD0 N.P.
uIO_GP1 N.P.uIO_GP2 N.P.
G1N.P.
G2N.P. SWN1 SWN2
G3
N.P.
G4
N.P.
VFBN.P.
FBLN.P.
FBHN.P.
IOUTM
KA
LED
WU
RTH
150
080B
S750
00
SST
uIO_VDD5 N.P.
R16
150 1%
21
JI1OPEN
VIN
Q2BNO_POP
Q1A
IAU
C80
N04
S6L0
32
Q2A
IAUC100N04S6L020 Q3B
IAUC80N04S6L032
Q4B
IAUC100N04S6L020
C20
10uF
50V
X7R
1210 C6
22uF
25V
X7R
1210
GND
C822
uF 25
V X7
R 12
10
C10
22uF
25V
X7R
1210
GNDGND
C2222uF 25V X7R 1210
C222
uF 25
V X7
R 12
10
GND GND
C12
470u
F 25
V PC
R1E4
71M
CL1G
S
GND
C14
470u
F 25
V PC
R1E4
71M
CL1G
S
GND
C25
470u
F 25
V PC
R1E4
71M
CL1G
S
IINM
R7
1C26
1uF 50V 0805
VIN
C17
330u
F 35V
PCR
1V33
1MCL
1GS
GND GND
C18
330u
F 35V
PCR
1V33
1MCL
1GS
C29
10uF
50V
X7R
1210
GND
RIIN
1,5m PML100HZPJV1L5
12
1S
2SRSWCS1NO POP
12
1S
2S RSWCS2
1,5m PML100HZPJV1L5
RSHO1
10mOhm FC4L64R010FER
GND GND
21
J1CLOSE
C16
330u
F 35
V PC
R1V3
31M
CL1G
S
GND GND
C21
330u
F 35
V PC
R1V3
31M
CL1G
S
C9
10uF
50V
X7R
1210
C27
10uF
50V
X7R
1210
C28
10uF
50V
X7R
1210
VHB
GNDGND GND
RSHO
10mOhm FC4L64R010FER
+VOUT
GND3
GND4
R211k5
1%
RG2B1
RG1B
1
RG4A1
RG3B1
CEN
1uF
50V
0805
GND
C19
10uF
50V
X7R
1210
GND
VIN undervoltage set to 7,2V (7,4V Exit)
Close=>IReg
IReg->Open
Open=>IReg
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 PIC2401 PIC2402 COC24
PIC2501 PIC2502 COC25
PIC2601 PIC2602
COC26
PIC2701
PIC2702
COC27 PIC2801
PIC2802 COC28
PIC2901
PIC2902
COC29
PIC5501
PIC5502 COC55
PIC5601
PIC5602
COC56
PIC6701
PIC6702
COC67
PIC6801
PIC6802 COC68
PIC6901
PIC6902 COC69
PICBS101
PICBS102 COCBS1
PICBS201
PICBS202 COCBS2
PICC101
PICC102 COCC1
PICEN01
PICEN02 COCEN
PICIVCC01
PICIVCC02 COCIVCC
PICMP01
COCMP
PICSN01 COCSN
PICSST01 PICSST02 COCSST
PID20A PID20K
COD2
PID30A PID30K
COD3
PID40A PID40K
COD4
PIDBS10A PIDBS10K
CODBS1 PIDBS20A
PIDBS20K CODBS2
PIEN01 COEN
PIEOMFS01 COEOMFS
PIFBH01 COFBH
PIFBL01 COFBL
PIG101 COG1
PIG201
COG2 PIG301
COG3
PIG401 COG4
PIGND01 COGND
PIGND201
COGND2
PIGND301
COGND3 PIGND401
COGND4
PIGND501
COGND5
PIGND001
COGND0
PIIC101
PIIC102
PIIC103
PIIC104
PIIC105
PIIC106
PIIC107
PIIC108
PIIC109
PIIC1010
PIIC1011
PIIC1012
PIIC1013
PIIC1014
PIIC1015
PIIC1016
PIIC1017
PIIC1018
PIIC1019
PIIC1020
PIIC1021
PIIC1022
PIIC1023
PIIC1024
PIIC1025
PIIC1026
PIIC1027
PIIC1028
PIIC1029
PIIC1030
PIIC1031
PIIC1032 PIIC1033
PIIC1034
PIIC1035
PIIC1036
PIIC1037
PIIC1038
PIIC1039
PIIC1040
PIIC1041
PIIC1042
PIIC1043
PIIC1044
PIIC1045
PIIC1046
PIIC1047
PIIC1048 PIIC10EP
COIC1
PIIINM01 COIINM
PIIOUTM01 COIOUTM
PIIVCC01
COIVCC
PIJ101 PIJ102
COJ1
PIJ0EN01
PIJ0EN02
COJ0EN
PIJ0LHI01
PIJ0LHI02
COJ0LHI
PIJ0PWMI01
PIJ0PWMI02
COJ0PWMI
PIJ0uIO01 PIJ0uIO02
PIJ0uIO03 PIJ0uIO04
PIJ0uIO05 PIJ0uIO06
PIJ0uIO07 PIJ0uIO08
PIJ0uIO09 PIJ0uIO010
PIJ0uIO011 PIJ0uIO012
PIJ0uIO013 PIJ0uIO014
PIJ0uIO015 PIJ0uIO016
COJ0uIO
PIJI101
PIJI102
COJI1
PIJV101 PIJV102
COJV1
PIJV201
PIJV202 COJV2
PIJVDD01 PIJVDD02
COJVDD
PIL101 PIL102
COL1
PILED0A
PILED0K
COLED
PILEDC01 COLEDC
PILHI01 COLHI
PIMISO01 COMISO
PIMOSI01 COMOSI
PIPWMI01 COPWMI
PIQ1A0D PIQ1A0G
PIQ1A0S
COQ1A
PIQ1B0D PIQ1B0G
PIQ1B0S
COQ1B
PIQ2A0D PIQ2A0G
PIQ2A0S
COQ2A
PIQ2B0D PIQ2B0G
PIQ2B0S COQ2B
PIQ3A0D PIQ3A0G
PIQ3A0S COQ3A
PIQ3B0D PIQ3B0G
PIQ3B0S
COQ3B
PIQ4A0D PIQ4A0G
PIQ4A0S
COQ4A
PIQ4B0D PIQ4B0G
PIQ4B0S
COQ4B
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
PIR1601 PIR1602
COR16
PIR1701
PIR1702
COR17
PIR1801
PIR1802
COR18
PIR2101
PIR2102 COR21
PIR8901
PIR8902 COR89
PIR9001
PIR9002 COR90
PIRC101
PIRC102
CORC1
PIRFREQ01 PIRFREQ02
CORFREQ
PIRG1A01 PIRG1A02
CORG1A
PIRG1B01 PIRG1B02
CORG1B
PIRG2A01 PIRG2A02
CORG2A
PIRG2B01 PIRG2B02
CORG2B
PIRG3A01 PIRG3A02
CORG3A
PIRG3B01 PIRG3B02
CORG3B
PIRG4A01 PIRG4A02
CORG4A
PIRG4B01 PIRG4B02
CORG4B
PIRIIN01 PIRIIN01S PIRIIN02 PIRIIN02S CORIIN
PIRSET01 PIRSET02
PIRSET03
CORSET
PIRSHO01 PIRSHO01S
PIRSHO02 PIRSHO02S
CORSHO
PIRSHO101 PIRSHO101S PIRSHO102 PIRSHO102S CORSHO1
PIRSWCS101 PIRSWCS101S
PIRSWCS102 PIRSWCS102S
CORSWCS1
PIRSWCS201 PIRSWCS201S
PIRSWCS202 PIRSWCS202S
CORSWCS2
PIRVH01 PIRVH02
CORVH
PIRVL01
PIRVL02
CORVL
PIRVOLT01 PIRVOLT02
PIRVOLT03
CORVOLT
PISCLK01 COSCLK
PISET01
COSET
PISST01 COSST
PISWN101
COSWN1
PISWN201
COSWN2
PIuIO0AD001 COuIO0AD0
PIuIO0GP101 COuIO0GP1 PIuIO0GP201 COuIO0GP2
PIuIO0VDD501 COuIO0VDD5
PIVDD01 COVDD
PIVFB01 COVFB
PIVIN01
COVIN
PIVIN001
COVIN0
PIVOUT01 COVOUT
PIVOUT001
COVOUT0
PIC2202
PIJV102
PIRSHO02
PIRSHO101
PIVOUT01 PIVOUT001
NL0VOUT
PICBS102
PIDBS10K
PIIC103
NLBST1
PICBS202
PIDBS20K
PIIC1010
NLBST2
PICMP01
PIIC1019
PIRC102 NLCOMP
PICSN01
PIJ0uIO09
PIR1101
NLCSN
POCSN
PICEN02
PID20K
PIEN01
PIIC1041
PIR301 PIR502
NLEN0INUVLO
PIEOMFS01
PIIC1032
PIR8901
NLEOMFS
PIFBL01
PIIC1014
PIJI102
PIR1602
PIR1702 PIRVOLT01 NLFB0N
PIFBH01
PIIC1013
PIR1601
PIRSHO01S
PIRSHO102S
PIRVH02
NLFB0P
PIC101
PIC201
PIC301
PIC401
PIC501
PIC601
PIC701
PIC801
PIC901
PIC1001
PIC1101
PIC1202
PIC1301
PIC1402
PIC1501
PIC1602
PIC1702 PIC1802
PIC1901
PIC2001
PIC2102
PIC2201 PIC2402 PIC2502
PIC2701 PIC2801
PIC2901
PIC5501
PIC5601
PIC6701
PIC6801
PIC6901
PICC102
PICEN01
PICIVCC02
PICSST01
PIGND01
PIGND201
PIGND301
PIGND401
PIGND501
PIGND001
PIIC101
PIIC105
PIIC108
PIIC1012
PIIC1015
PIIC1026
PIIC1034
PIIC1036
PIIC1040 PIIC1045 PIIC1048 PIIC10EP
PIJ0uIO02
PIJV201
PIR501
PIR1002
PIR2101
PIRFREQ01
PIRSET01
PIRSWCS102 PIRSWCS201
PIRVL01
PIC6902 PIIC1016
PIIOUTM01 NLIOUTMON
PIIC1033
PILEDC01
PIR9002
NLLEDCURR
PIIC1037
PILHI01
PIR102
NLLHI
PIJ0uIO013
PIMISO01
PIR1301
NLMISO
POMISO PIJ0uIO015
PIMOSI01
PIR1201
NLMOSI
POMOSI
PIC202 PIC602
PIC702
PIC802 PIC1002
PIC1102
PIC1201
PIC1302
PIC1401
PIC2401 PIC2501
PIJV101
PIQ4A0D PIQ4B0D
PIRSHO01
PIRSHO102
PIC302 PIR801
PIC402 PIR1701
PIC1502 PIR601
PIC2601
PIIC1042
PIR402 PIC2602 PIIC1043
PIR701
PIC6702
PIIC1020
PIRVH01
PIRVL02
PIVFB01
PIC6802
PIIC1023
PICBS101
PIIC104
PIL102
PIQ1A0S PIQ1B0S
PIQ2A0D PIQ2B0D
PIR802 PISWN101
PICBS201
PIIC109
PIL101
PIQ3A0D PIQ3B0D
PIQ4A0S PIQ4B0S
PIR602 PISWN201
PICC101
PIRC101
PICSST02 PIIC1038
PISST01
PID20A
PIJ0uIO08 POEN0uIO
PID30A
PIJ0uIO014 POPWM0uIO
PID30K
PID40K
PIR901 PIR1001
PID40A PIJ0PWMI02
PIG101
PIQ1A0G PIRG1A02
PIG201 PIQ2A0G PIRG2A02
PIG301 PIQ3B0G PIRG3B02
PIG401 PIQ4B0G PIRG4B02
PIIC102
PIRG1A01
PIRG1B01
PIIC106
PIRG2A01
PIRG2B01
PIIC107
PIRG3A01
PIRG3B01
PIIC1011
PIRG4A01
PIRG4B01
PIIC1017 PIRSWCS101S PIRSWCS202S
PIIC1018 PIRSWCS102S PIRSWCS201S
PIIC1022
PIRSET02 PISET01
PIIC1027 PIR1302
PIIC1028 PIR1102
PIIC1029 PIR1402
PIIC1030 PIR1202
PIIC1035 PIRFREQ02
PIIC1039
PIIINM01
PIJ0EN02 PIR302
PIJ0LHI01 PIR101
PIJ0uIO01
PIJ0uIO03 PIJ0uIO04 PIuIO0VDD501
PIJ0uIO05 PIJ0uIO06
PIJ0uIO07
PIJ0uIO010 PIuIO0GP201
PIJ0uIO012 PIuIO0GP101
PIJ0uIO016 PIuIO0AD001
PIJI101
PIRSHO02S
PIRSHO101S
PIJV202 PIR1801
PILED0K PIR2102
PIQ1B0G PIRG1B02
PIQ2A0S PIQ2B0S
PIQ3A0S PIQ3B0S
PIRSWCS101 PIRSWCS202
PIQ2B0G PIRG2B02
PIQ3A0G PIRG3A02
PIQ4A0G PIRG4A02
PIR201 PIRSET03
PIR401
PIRIIN01S
PIR702
PIRIIN02S
PIR1802
PIRVOLT02
PIRVOLT03
PIIC1024
PIPWMI01
PIR902
NLPWMI
PIJ0uIO011
PIR1401
PISCLK01 NLSCLK
POSCLK PICIVCC01
PIDBS10A PIDBS20A
PIIC1021
PIIC1025
PIIC1046
PIIC1047
PIIVCC01
PIJ0LHI02
PIJ0PWMI01
PIJVDD01
PILED0A
PIR202
PIC5602
PIIC1031
PIJVDD02
PIR8902
PIR9001
PIVDD01
PIC102 PIC502
PIC902 PIC1601
PIC1701 PIC1801
PIC1902
PIC2002
PIC2101 PIC2702 PIC2802
PIC5502
PIIC1044
PIJ102
PIJ0EN01
PIQ1A0D PIQ1B0D
PIRIIN02
PIC2902
PIJ101
PIRIIN01
PIVIN01 PIVIN001
POCSN POEN0uIO
POMISO POMOSI
POPWM0uIO POSCLK
User manual 17 of 19 Rev.1.0
2021-03-04
TLD5542-1HIPOW_EVAL board Evaluation board manual
List of references
8 List of references
[1] Infineon Toolbox and Config Wizard www.infineon.com
User manual 18 of 19 Rev.1.0
2021-03-04
TLD5542-1HIPOW_EVAL board Evaluation board manual
List of references
Revision history
Document
version
Date of release Description of changes
Rev.1.0 2021-03-04 Initial User Manual
Trademarks All referenced product or service names and trademarks are the property of their respective owners.
Edition 2021-03-04
UM TLD5542-1HIPOW_EVAL
Published by
Infineon Technologies AG
81726 Munich, Germany
© 2021 Infineon Technologies AG.
All Rights Reserved.
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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.
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