Infineon TLD7002-16SYS_EVAL User manual

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TLD7002-16SYS_EVAL board
User guide
LITIX Pixel Rear
Multi-channel LED driver
Z8F80459854
About this document
Scope and purpose
The scope of this user manual is to provide instructions on the use of the TLD7002-16SYS_EVAL board.
The TLD7002-16SYS_EVAL is an evaluation platform for the TLD7002-16ES LED driver, which features:
16 independent channels set from 5 mA to 76.5 mA
Power stages can be paralleled for higher currents
16 independent 14 bits PWM engines
UART over CAN interface (HSLI High speed lighting interface)
OTP (one time programmable) configuration memory
Intended audience
Hardware and Firmware engineers
Evaluation board
This board is to be used during the design-in process for evaluating and measuring characteristic curves, and
for checking datasheet specifications.
Note: PCB and auxiliary circuits are NOT optimized for final customer design.
User guide Please read the sections "Important notice" and "Warnings" at the end of this document Revision 1.00
www.infineon.com 2023-05-29
Important notice
“Evaluation Boards and Reference Boards” shall mean products embedded on a printed circuit board
(PCB) for demonstration and/or evaluation purposes, which include, without limitation, demonstration,
reference and evaluation boards, kits and design (collectively referred to as “Reference Board”).
Environmental conditions have been considered in the design of the Evaluation Boards and Reference
Boards provided by Infineon Technologies. The design of the Evaluation Boards and Reference Boards has
been tested by Infineon Technologies only as described in this document. The design is not qualified in
terms of safety requirements, manufacturing and operation over the entire operating temperature range
or lifetime.
The Evaluation Boards and Reference Boards provided by Infineon Technologies are subject to functional
testing only under typical load conditions. Evaluation Boards and Reference 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 and Reference Boards are not commercialized products, and are solely intended for
evaluation and testing purposes. In particular, they shall not be used for reliability testing or production.
The Evaluation Boards and Reference Boards may therefore not comply with CE or similar standards
(including but not limited to the EMC Directive 2004/EC/108 and the EMC Act) and may not fulfill other
requirements of the country in which they are operated by the customer. The customer shall ensure that
all Evaluation Boards and Reference Boards will be handled in a way which is compliant with the relevant
requirements and standards of the country in which they are operated.
The Evaluation Boards and Reference Boards as well as the information provided in this document
are addressed only to qualified and skilled technical sta, for laboratory usage, and shall be used
and managed according to the terms and conditions set forth in this document and in other related
documentation supplied with the respective Evaluation Board or Reference Board.
It is the responsibility of the customer’s technical departments to evaluate the suitability of the
Evaluation Boards and Reference Boards for the intended application, and to evaluate the completeness
and correctness of the information provided in this document with respect to such application.
The customer is obliged to ensure that the use of the Evaluation Boards and Reference Boards does not
cause any harm to persons or third party property.
The Evaluation Boards and Reference Boards and any information in this document is provided "as is"
and Infineon Technologies disclaims any warranties, express or implied, including but not limited to
warranties of non-infringement of third party rights and implied warranties of fitness for any purpose, or
for merchantability.
Infineon Technologies shall not be responsible for any damages resulting from the use of the Evaluation
Boards and Reference Boards and/or from any information provided in this document. The customer is
obliged to defend, indemnify and hold Infineon Technologies harmless from and against any claims or
damages arising out of or resulting from any use thereof.
Infineon Technologies reserves the right to modify this document and/or any information provided
herein at any time without further notice.
TLD7002-16SYS_EVAL board
User guide
Important notice
User guide 2 Revision 1.00
2023-05-29
Safety precautions
Note: Please note the following warnings regarding the hazards associated with development systems.
Table 1 Safety precautions
Caution:
The device surface of the evaluation or reference
board may become hot during testing. Hence,
necessary precautions are required while handling the
board. Failure to comply may cause injury.
TLD7002-16SYS_EVAL board
User guide
Safety precautions
User guide 3 Revision 1.00
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Table of contents
About this document . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1
Important notice . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2
Safety precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
Table of contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
1 The board at a glance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .5
1.1 Block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
1.2 Board parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
2 Quick start . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
2.1 Operational modes summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
2.2 Fail safe operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7
2.3 GPINx direct drive control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
2.4 HSLI bus control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
2.5 Control with Arduino UNO and demo soware sketch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
2.6 OTP configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
3 System design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
3.1 Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
3.2 Layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
3.3 Bill of material . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
References . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .16
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .17
Disclaimer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
TLD7002-16SYS_EVAL board
User guide
Table of contents
User guide 4 Revision 1.00
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1 The board at a glance
TLD7002-16SYS_EVAL consists of one PCB, with 3 snappable sections:
1 x CAN transceiver section
2 x LED driver, TLD7002-16ES section
2 x LED load section
The 5 sections of the PCB can be snapped in order to mimic dierent system implementation. It is possible to
connect the snapped sections by means of wires or 2.54 mm pin headers.
Figure 1 TLD7002-16SYS_EVAL
The two TLD7002-16ES devices in the TLD7002-16SYS_EVAL have a pre-programmed OTP, with addresses 2
and 3 as shown in the PCB silk screen circled numbers. Output current is set to 20 mA. The output current
may be increased by emulating a new OTP configuration (see OTP programming application note [3]). The
OTP configuration array which was used to program the TLD7002-16SYS_EVAL can be downloaded from the
TLD7002-16SYS_EVAL website [4].
TLD7002-16SYS_EVAL board
User guide
1 The board at a glance
User guide 5 Revision 1.00
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1.1 Block diagram
Below, find the block diagram of the TLD7002-16SYS_EVAL.
Note: Microcontroller and power supply are not included
OUTn
VLED
LED DRIVER SECTION LED LOAD SECTION
TLD7002-16ES
NTC
OUT0
...
OUT15
VLED
TRANSCEIVER SECTION
TLE9351VSJ
VLED_REV
VS_REV
GND
Microcontroller
HSLI-H
HSLI-L
TXD
RXD
GND
VS_REV
GND
VLED_REV
GPIN0
GPIN1
Power Supply
OUTn
VLED
LED DRIVER SECTION LED LOAD SECTION
TLD7002-16ES
NTC
OUT0
...
OUT15
VLED
ADDRESS 2
ADDRESS 3
VS_REV
GND
VLED_REV
HSLI-H
HSLI-L
GPIN0
GPIN1
Figure 2 TLD7002-16SYS_EVAL block diagram
1.2 Board parameters
Table 2 Board parameters
Parameter Symbol Values Unit Note or test condition
Min. Typ. Max.
Input voltage
TLD7002-16ES
VS_REV 6 7 28 V Reverse protection diode is present
and will decrease the eective VS
voltage approximately 200 mV below
VS_REV
Input voltage LED VLED_REV 6 7 20
35
VVLED ADC reading voltage has 20V
full scale, higher voltage will lead
to erroneous LED forward voltage
reading. The TLD7002-16ES is a linear
regulator. Thermal derating may occur
for high VLED and high duty cycle
applied
Control voltage
GPINx
VGPINx -0.3 20 V Able to use up to 20 V at the GPINx test
points because of the limiting resistor
present in the PCB
Output current IOUTn 5.6 20 76.5 mA Output current OTP setting is 20 mA for
the TLD7002-16SYS_EVAL
TLD7002-16SYS_EVAL board
User guide
1 The board at a glance
User guide 6 Revision 1.00
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2 Quick start
2.1 Operational modes summary
The TLD7002-16SYS_EVAL can operate in three dierent manners.
Fail safe operation
GPINx direct drive control
HSLI bus control
2.2 Fail safe operation
The TLD7002-16ES devices on the TLD7002-16SYS_EVAL are programmed watchdog timeout set to 2s. If within
2 seconds from the board power up, no HSLI communication is received by the TLD7002-16ES, then the fail safe
configuration will turn on as shown in figure below.
To check the device in Fail safe operation:
1. Close JVS_VL in order to use a single power supply (or use 2 power supplies for VS and VLED_REV)
2. Connect the GND at the - terminal of a 6 V to 20 V 500 mA power supply
3. Connect VS_REV to the + terminal of the power supply
4. The OTP programmed fail safe configuration will turn on aer 2 s as shown in figure below
Figure 3 TLD7002-16SYS_EVAL fail safe operation with 1 supply only
TLD7002-16SYS_EVAL board
User guide
2 Quick start
User guide 7 Revision 1.00
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2.3 GPINx direct drive control
1. Close JVS_VL to use a single power supply (or use 2 power supplies for VS and VLED_REV)
2. Connect the GND at the - terminal of a 6 V to 20 V 500 m A power supply
3. Connect VS_REV to the + terminal of the power supply
4. Connect GPIN0 or GPIN1 test points to VDD5V test point directly to VBAT or to the VDD test point
5. The respective GPIN0 or GPIN1 OTP configuration, pre-written in the OTP, will light up
Note that in addition, the fail safe configuration remains active, unless correct HSLI messages are received from
the TLD7002-16 kicking the watchdog.
+-
GPIN0a
GPIN1b
GPIN0b
GPIN1a
GPIN1a
GPIN0a
GPIN1b
GPIN0b
ADDRESS (2) PCB ADDRESS (3) PCB
JVS_VL
closed
Figure 4 TLD7002-16SYS_EVAL GPIN0 direct control with 1 supply only
GPIN are not intended for PWM transfer to the LED, but only as activators of the output, and the output will
produce a pre-defined duty cycle, which is stored on the OTP configuration.
Which LED are turned on when a GPIN is “logic high” are stored in the GPIN0_MAP and GPIN1_MAP OTP
registers, Which duty cycle is produced at the outputs (mapped to that GPIN) when the GPINx “HIGH” is
applied, is the one stored in DC0_OUTi and DC1_OUTi registers.
GPINx have 2 options for control:
PWM decoding enabled: can use an Input PWM Signal to either Enable or Disable LED output
- Interprets an input PWM Duty Cycle < 25% as OFF, Disabling GPINx mapped outputs
- Interprets an input PWM Duty Cycle > 75% as ON, Enabling GPINx mapped outputs
PWM decoding disabled: can use static Input HIGH or LOW Signal to Enable or Disable LED outputs
- HIGH → Disabling GPINx mapped outputs
- LOW → Enabling GPINx mapped outputs
If PWM decoding is disabled on the OTP configuration; which is the case for the TLD7002-16SYS_EVAL, and the
user applies a duty cycle at the GPIN0, this may result in a flicker. The flicker is as a result of the device sampling
the GPIN0 in random points of the PWM input signal, and therefore it is possible that the output turns ON (with
duty specified on DC0_OUTi ) or outputs turn OFF.
TLD7002-16SYS_EVAL board
User guide
2 Quick start
User guide 8 Revision 1.00
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2.4 HSLI bus control
The TLD 7002-16ES can be connected to an external microcontroller UART. The TLD7002-16ES device drivers are
available on the TLD7002-16ES webpage [2].
1. Close JVS_VL to use a single power supply
2. Connect the GND at the - terminal of a 6 V to 20 V 1 A power supply
3. Connect VS_REV to the + terminal of the power supply
4. Connect GND, RX, TX COMMANDER test points to a commander µC GND, RX(UART), TX(UART)
5. Write and Execute on the µC a soware which controls two TLD7002-16 at addresses 2 and 3
6. If the sequence of commands is correct, the TLD7002-16SYS_EVAL will exit the fail safe and follow
commands received from the HSLI bus
Figure 5 TLD7002-16SYS_EVAL µC control
TLD7002-16SYS_EVAL board
User guide
2 Quick start
User guide 9 Revision 1.00
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2.5 Control with Arduino UNO and demo soware sketch
The soware sketch for Arduino and the TLD7002-16SYS_EVAL can be used as starting point for the soware
development with the TLD7002-16ES. This sketch runs an animation to the two TLD7002-16 devices.
1. Download the TLD7002-16SYS_EVAL sketch from the TLD7002-16SYS_EVAL website [4]
2. Download and open the Arduino IDE [1]
3. Connect the Arduino Uno board to the PC with a USB cable
4. Upload the TLD7002-16SYS_EVAL sketch in the Arduino Uno (D0 pin must be disconnected)
5. Close JVS_VL in order to use a single power supply
6. Connect the TLD7002-16SYS_EVAL to the Arduino Uno with jumper wires as shown in the figure below
a. GPIN0a and GPIN0b connections are optional, use them if OTP emulation is needed
7. Connect the GND at the (-) terminal of a 6 V to 20 V 1 A power supply
8. Connect VS_REV to the + terminal of the power supply
9. The TLD7002-16SYS_EVAL (address 2 only part) will show a wiping indicator
10. Optional: open Tools > Serial Monitor and set the speed to 230400 bps to see diagnostic prints
Note: It is not possible to upload a sketch to the Arduino Uno if the RX commander Jumper wire is
connected to the Arduino. Therefore, when a new sketch is uploaded, the RX commander wire must be
momentarily disconnected from the Arduino D0 pin.
Figure 6 TLD7002-16SYS_EVAL board connected to an Arduino Uno
2.6 OTP configuration
The TLD7002-16SYS_EVAL comes with pre-written OTP memory on the two TLD7002-16ES devices. In case
a dierent OTP configuration is required, (e.g. GPINx set as analog inputs, increased LED current), it is
possible to emulate a new OTP configuration in the TLD7002-16ES directly from the Arduino code by using
the OTPemuComplete() function.
The OTP configuration files, pre-written in the TLD7002-16SYS_EVAL LED drivers, are provided on the
TLD7002-16_ES website [4]. The OTP wizard can be used to read the OTP configuration files. The OTP wizard
tool (see Figure 7) can used to read and interpret the .ocfg configuration files. The tool can be installed from the
Infineon developer center [5].
TLD7002-16SYS_EVAL board
User guide
2 Quick start
User guide 10 Revision 1.00
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The TLD7002-16SYS_EVAL sketch program can be used to emulate the OTP, because the OTP emulation
function is implemented in the code - OTPemuComplete function present in file TLD7002FuncLayer.c.
See TLD7002-16 OTP programming application note [3] for further details on OTP emulation and programming.
Figure 7 OTP Wizard
TLD7002-16SYS_EVAL board
User guide
2 Quick start
User guide 11 Revision 1.00
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3 System design
3.1 Schematics
Figure 8 Schematic
TLD7002-16SYS_EVAL board
User guide
3 System design
User guide 12 Revision 1.00
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3.2 Layout
PAC101
PAC102
COC1
PAC202
PAC201
COC2
PAC202
PAC201
PAC1002
PAC1001
COC10
PAC1102 PAC1101
COC11
PAC1202
PAC1201
COC12
PAC1202
PAC1201
PAC1302
PAC1301
COC13
PAC1301
PAC1302
PACNTC02
PACNTC01
COCNTC
PACNTC02
PACNTC01
PACO001 PACO002
COCO0
PACO002
PACO001
PACO101 PACO102
COCO1
PACO102
PACO101
PACO202
PACO201
COCO2
PACO201 PACO202
PACO302
PACO301
COCO3
PACO301 PACO302
PACO402
PACO401
COCO4
PACO401 PACO402
PACO502
PACO501
COCO5
PACO501 PACO502
PACO602
PACO601
COCO6
PACO601 PACO602
PACO702
PACO701
COCO7
PACO701 PACO702
PACO802
PACO801
COCO8
PACO801 PACO802
PACO901 PACO902
COCO9
PACO902
PACO901
PACO1001 PACO1002
COCO10
PACO1002
PACO1001
PACO1102
PACO1101
COCO11
PACO1101 PACO1102
PACO1202
PACO1201
COCO12
PACO1201 PACO1202
PACO1302
PACO1301
COCO13
PACO1301 PACO1302
PACO1401 PACO1402
COCO14
PACO1402
PACO1401
PACO1502
PACO1501
COCO15
PACO1501 PACO1502
PACVDD102
PACVDD101
COCVDD1
PACVDD102
PACVDD101
PACVDD201
PACVDD202
COCVDD2
PACVDD201
PACVDD202
PACVL102
PACVL101
COCVL1
PACVL102
PACVL101
PACVL202
PACVL201
COCVL2
PACVL201 PACVL202
PACVL301 PACVL302
COCVL3
PACVL302
PACVL301
PACVS102
PACVS101
COCVS1
PACVS101
PACVS102
PACVS201
PACVS202
COCVS2
PACVS202
PACVS201
PAD0A01
PAD0A02
COD0A
PAD0A01
PAD0A02
PAD0B01
PAD0B02
COD0B
PAD0B01
PAD0B02
PAD101
PAD102
COD1
PAD102
PAD101
PAD1A01
PAD1A02
COD1A
PAD1A01
PAD1A02
PAD1B01
PAD1B02
COD1B
PAD1B01
PAD1B02
PAD202
PAD201
COD2
PAD201
PAD202
PAD2A01
PAD2A02
COD2A
PAD2A01
PAD2A02
PAD2B01
PAD2B02
COD2B
PAD2B01
PAD2B02
PAD3A01
PAD3A02
COD3A
PAD3A01
PAD3A02
PAD3B01
PAD3B02
COD3B
PAD3B01
PAD3B02
PAD4A01
PAD4A02
COD4A
PAD4A01
PAD4A02
PAD4B01
PAD4B02
COD4B
PAD4B01
PAD4B02
PAD5A01
PAD5A02
COD5A
PAD5A01
PAD5A02
PAD5B01
PAD5B02
COD5B
PAD5B01
PAD5B02
PAD6A01
PAD6A02
COD6A
PAD6A01
PAD6A02
PAD6B01
PAD6B02
COD6B
PAD6B01
PAD6B02
PAD7A01
PAD7A02
COD7A
PAD7A01
PAD7A02
PAD7B01
PAD7B02
COD7B
PAD7B01
PAD7B02
PAD8A01
PAD8A02
COD8A
PAD8A01
PAD8A02
PAD8B01
PAD8B02
COD8B
PAD8B01
PAD8B02
PAD9A01
PAD9A02
COD9A
PAD9A01
PAD9A02
PAD9B01
PAD9B02
COD9B
PAD9B01
PAD9B02
PAD10A01
PAD10A02
COD10A
PAD10A01
PAD10A02
PAD10B01
PAD10B02
COD10B
PAD10B01
PAD10B02
PAD11A01
PAD11A02
COD11A
PAD11A01
PAD11A02
PAD11B01
PAD11B02
COD11B
PAD11B01
PAD11B02
PAD12A01
PAD12A02
COD12A
PAD12A01
PAD12A02
PAD12B01
PAD12B02
COD12B
PAD12B01
PAD12B02
PAD13A01
PAD13A02
COD13A
PAD13A01
PAD13A02
PAD13B01
PAD13B02
COD13B
PAD13B01
PAD13B02
PAD14A01
PAD14A02
COD14A
PAD14A01
PAD14A02
PAD14B01
PAD14B02
COD14B
PAD14B01
PAD14B02
PAD15A01
PAD15A02
COD15A
PAD15A01
PAD15A02
PAD15B01
PAD15B02
COD15B
PAD15B01
PAD15B02
PAGPIN001
COGPIN0
PAGPIN001
PAGPIN101
COGPIN1
PAGPIN101
PAJ001 PAJ002
COJ0
PAJ001 PAJ002
PAJ102
PAJ101
COJ1
PAJ101 PAJ102
PAJ202
PAJ201
COJ2
PAJ201 PAJ202
PAJ302
PAJ301
COJ3
PAJ301 PAJ302
PAJ402
PAJ401
COJ4
PAJ401 PAJ402
PAJ501 PAJ502
COJ5
PAJ502
PAJ501
PAJ601 PAJ602
COJ6
PAJ602
PAJ601
PAJ702
PAJ701
COJ7
PAJ701 PAJ702
PAJ802
PAJ801
COJ8
PAJ801 PAJ802
PAJ901 PAJ902
COJ9
PAJ902
PAJ901
PAJ1002
PAJ1001
COJ10
PAJ1001 PAJ1002
PAJ1101 PAJ1102
COJ11
PAJ1102
PAJ1101
PAJ1201 PAJ1202
COJ12
PAJ1202
PAJ1201
PAJ1302
PAJ1301
COJ13
PAJ1301 PAJ1302
PAJ1401 PAJ1402
COJ14
PAJ1402
PAJ1401
PAJ1502
PAJ1501
COJ15
PAJ1501 PAJ1502
PAJF101
PAJF102
PAJF103
PAJF104
PAJF105
PAJF106
PAJF107
COJF1
PAJH02
PAJH01
COJH
PAJH02
PAJH01
PAJL01
PAJL02
COJL
PAJL01
PAJL02
PAJL002
PAJL001
COJL0
PAJL002
PAJL001
PAJL101 PAJL102
COJL1
PAJL101 PAJL102 PAJL201 PAJL202
COJL2
PAJL201 PAJL202
PAJL302
PAJL301
COJL3
PAJL302
PAJL301
PAJL401 PAJL402
COJL4
PAJL401 PAJL402
PAJL502
PAJL501
COJL5
PAJL502
PAJL501
PAJL601 PAJL602
COJL6
PAJL601 PAJL602
PAJL702
PAJL701
COJL7
PAJL702
PAJL701
PAJL801 PAJL802
COJL8
PAJL801 PAJL802
PAJL902
PAJL901
COJL9
PAJL902
PAJL901
PAJL1001 PAJL1002
COJL10
PAJL1001 PAJL1002
PAJL1102
PAJL1101
COJL11
PAJL1102
PAJL1101
PAJL1201 PAJL1202
COJL12
PAJL1201 PAJL1202
PAJL1302
PAJL1301
COJL13
PAJL1302
PAJL1301
PAJL1401 PAJL1402
COJL14
PAJL1401 PAJL1402
PAJL1502
PAJL1501
COJL15
PAJL1502
PAJL1501
PAJNTC02 PAJNTC01
COJNTC
PAJNTC02 PAJNTC01
PAJVL02
PAJVL01
COJVL
PAJVL01 PAJVL02
PAJVS0VL01
PAJVS0VL02
COJVS0VL
COLG1
PANTC02 PANTC01
CONTC
PANTC02 PANTC01
PAR101 PAR102
COR1
PAR101 PAR102
PAR202 PAR201
COR2
PAR201
PAR202
PAR301
PAR302
COR3
PAR401
PAR402
COR4
PAR502
PAR501
COR5
PAR501
PAR502
PAR602
PAR601
COR6
PAR601
PAR602
PAR701
PAR702
COR7
PAR702
PAR701
PAR801
PAR802
COR8
PAR902
PAR901
COR9
PAR1001
PAR1002
COR10
PAR1101
PAR1102
COR11
PAR1201
PAR1202
COR12
PAR1301
PAR1302
COR13
PARH102
PARH101
CORH1
PARH202
PARH201
CORH2
PARNTC01
PARNTC02
CORNTC
PARNTC01
PARNTC02
PARX01
CORX
PATX01
COTX
PAU102 PAU103 PAU104 PAU105
PAU106
PAU107 PAU108 PAU109
PAU1010 PAU1011
PAU1012
PAU1013
PAU1014
PAU1015
PAU1016
PAU1017
PAU1018
PAU1019
PAU1020
PAU1021
PAU1022
PAU1023
PAU1024
PAU1025
PAU101
COU1
PAU101
PAU1025
PAU1024 PAU1023 PAU1022 PAU1021 PAU1020
PAU1019
PAU1018 PAU1017 PAU1016
PAU1015 PAU1014
PAU1013
PAU1012
PAU1011
PAU1010
PAU109
PAU108
PAU107
PAU106
PAU105
PAU104
PAU103
PAU102
PAU308
PAU305
PAU301
PAU304
PAU307
PAU306
PAU302
PAU303
COU3
PAVDD5V01
COVDD5V
PAVDD5V01
PAVDD5V0101
COVDD5V01
PAVLED01
COVLED
PAVLED01
PAVLED0REV01
COVLED0REV
PAVS01
COVS
PAVS01
PAVS0REV01
COVS0REV
PAC101
PAC201
PAC1001
PAC1102
PAC1201
PAC1301
PACNTC01
PACVDD101
PACVDD201
PACVL101
PACVL201
PACVL301
PACVS101
PACVS201
PAJF101
PANTC02
PAR301
PAR302
PAU1022
PAU1025
PAU302
PAU308
PAGPIN001
PAJF104
PAR601
PAGPIN001
PAJF103
PAR601
PAR1101
PAR1102
PAGPIN101
PAR701
PAC1202
PAJH01
PAR401
PAR402
PARH102
PAU1024
PAC1302
PAJL01
PAR1001
PAR1002
PARH202
PAU1023
PAC202
PAR101
PAR202
PAC1101
PAR801
PAR902
PAD0A01
PAD0B02
PAJL002
PAD0A02 PAD1A02 PAD2A02 PAD3A02
PAD4A02 PAD5A02 PAD6A02 PAD7A02
PAD8A02 PAD9A02
PAD10A02 PAD11A02
PAD12A02 PAD13A02 PAD14A02 PAD15A02
PAJVL02
PAD0B01
PAJ002
PAJL001
PAD1A01
PAD1B02
PAJL102
PAD1B01
PAJ102
PAJL101
PAD2A01
PAD2B02
PAJL202
PAD2B01
PAJ202
PAJL201
PAD3A01
PAD3B02
PAJL302
PAD3B01
PAJ302
PAJL301
PAD4A01
PAD4B02
PAJL402
PAD4B01
PAJ402
PAJL401
PAD5A01
PAD5B02
PAJL502
PAD5B01
PAJ502
PAJL501
PAD6A01
PAD6B02
PAJL602
PAD6B01
PAJ602
PAJL601
PAD7A01
PAD7B02
PAJL702
PAD7B01
PAJ702
PAJL701
PAD8A01
PAD8B02
PAJL802
PAD8B01
PAJ802
PAJL801
PAD9A01
PAD9B02
PAJL902
PAD9B01
PAJ902
PAJL901
PAD10A01
PAD10B02
PAJL1002
PAD10B01
PAJ1002
PAJL1001
PAD11A01
PAD11B02
PAJL1102
PAD11B01
PAJ1102
PAJL1101
PAD12A01
PAD12B02
PAJL1202
PAD12B01
PAJ1202
PAJL1201
PAD13A01
PAD13B02
PAJL1302
PAD13B01
PAJ1302
PAJL1301
PAD14A01
PAD14B02
PAJL1402
PAD14B01
PAJ1402
PAJL1401
PAD15A01
PAD15B02
PAJL1502
PAD15B01
PAJ1502
PAJL1501
PAJH02
PAR102
PAJL02
PAR201
PAJNTC01
PAR702
PAU103
PAR502
PAU104
PAR602
PAU102
PACO002
PAJ001
PAU105
PACO102
PAJ101
PAU106
PACO202
PAJ201
PAU107
PACO302
PAJ301
PAU108
PACO402
PAJ401
PAU109
PACO502
PAJ501
PAU1010
PACO602
PAJ601
PAU1011
PACO702
PAJ701
PAU1012
PACO802
PAJ801
PAU1013
PACO902
PAJ901
PAU1014
PACO1002
PAJ1001
PAU1015
PACO1102
PAJ1101
PAU1016
PACO1202
PAJ1201
PAU1017
PACO1302
PAJ1301
PAU1018
PACO1402
PAJ1401
PAU1019
PACO1502
PAJ1501
PAU1020
PAR802
PARH101
PAU307
PAR901
PARH201
PAU306
PAJF106
PARX01
PAU304
PAJF107
PATX01
PAU301
PAC102
PAC1002
PACVDD102
PACVDD202
PARNTC02
PAU101
PAU303
PAU305
PAVDD5V01
PAVDD5V0101
PACO001
PACO101
PACO201
PACO301
PACO401
PACO501
PACO601
PACO701
PACO801
PACO901
PACO1001
PACO1101
PACO1201
PACO1301
PACO1401
PACO1501
PACVL102
PACVL202
PACVL302
PAD101
PAJVL01
PAR501
PAVLED01
PAD102
PAJF105
PAJVS0VL02
PAR1301
PAR1302
PAVLED0REV01
PACVS102
PACVS202
PAD201
PAU1021
PAVS01
PAD202
PAJF102
PAJVS0VL01
PAR1201
PAR1202
PAVS0REV01
PACNTC02
PAJNTC02
PANTC01
PARNTC01
Figure 9 Top layer
TLD7002-16SYS_EVAL board
User guide
3 System design
User guide 13 Revision 1.00
2023-05-29
PAC101
PAC102
COC1
PAC202
PAC201
COC2
PAC202
PAC201
PAC1002
PAC1001
COC10
PAC1102 PAC1101
COC11
PAC1202
PAC1201
COC12
PAC1202
PAC1201
PAC1302
PAC1301
COC13
PAC1301
PAC1302
PACNTC02
PACNTC01
COCNTC
PACNTC02
PACNTC01
PACO001
PACO002
COCO0
PACO002
PACO001
PACO101
PACO102
COCO1
PACO102
PACO101
PACO202
PACO201
COCO2
PACO201
PACO202
PACO302
PACO301
COCO3
PACO301
PACO302
PACO402
PACO401
COCO4
PACO401
PACO402
PACO502
PACO501
COCO5
PACO501
PACO502
PACO602
PACO601
COCO6
PACO601
PACO602
PACO702
PACO701
COCO7
PACO701
PACO702
PACO802
PACO801
COCO8
PACO801
PACO802
PACO901
PACO902
COCO9
PACO902
PACO901
PACO1001
PACO1002
COCO10
PACO1002
PACO1001
PACO1102
PACO1101
COCO11
PACO1101
PACO1102
PACO1202
PACO1201
COCO12
PACO1201
PACO1202
PACO1302
PACO1301
COCO13
PACO1301
PACO1302
PACO1401
PACO1402
COCO14
PACO1402
PACO1401
PACO1502
PACO1501
COCO15
PACO1501
PACO1502
PACVDD102
PACVDD101
COCVDD1
PACVDD102
PACVDD101
PACVDD201
PACVDD202
COCVDD2
PACVDD201
PACVDD202
PACVL102
PACVL101
COCVL1
PACVL102
PACVL101
PACVL202
PACVL201
COCVL2
PACVL201 PACVL202
PACVL301 PACVL302
COCVL3
PACVL302
PACVL301
PACVS102
PACVS101
COCVS1
PACVS101
PACVS102
PACVS201 PACVS202
COCVS2
PACVS202
PACVS201
PAD0A01
PAD0A02
COD0A
PAD0A01
PAD0A02
PAD0B01
PAD0B02
COD0B
PAD0B01
PAD0B02
PAD101
PAD102
COD1
PAD102
PAD101
PAD1A01
PAD1A02
COD1A
PAD1A01
PAD1A02
PAD1B01
PAD1B02
COD1B
PAD1B01
PAD1B02
PAD202
PAD201
COD2
PAD201
PAD202
PAD2A01
PAD2A02
COD2A
PAD2A01
PAD2A02
PAD2B01
PAD2B02
COD2B
PAD2B01
PAD2B02
PAD3A01
PAD3A02
COD3A
PAD3A01
PAD3A02
PAD3B01
PAD3B02
COD3B
PAD3B01
PAD3B02
PAD4A01
PAD4A02
COD4A
PAD4A01
PAD4A02
PAD4B01
PAD4B02
COD4B
PAD4B01
PAD4B02
PAD5A01
PAD5A02
COD5A
PAD5A01
PAD5A02
PAD5B01
PAD5B02
COD5B
PAD5B01
PAD5B02
PAD6A01
PAD6A02
COD6A
PAD6A01
PAD6A02
PAD6B01
PAD6B02
COD6B
PAD6B01
PAD6B02
PAD7A01
PAD7A02
COD7A
PAD7A01
PAD7A02
PAD7B01
PAD7B02
COD7B
PAD7B01
PAD7B02
PAD8A01
PAD8A02
COD8A
PAD8A01
PAD8A02
PAD8B01
PAD8B02
COD8B
PAD8B01
PAD8B02
PAD9A01
PAD9A02
COD9A
PAD9A01
PAD9A02
PAD9B01
PAD9B02
COD9B
PAD9B01
PAD9B02
PAD10A01
PAD10A02
COD10A
PAD10A01
PAD10A02
PAD10B01
PAD10B02
COD10B
PAD10B01
PAD10B02
PAD11A01
PAD11A02
COD11A
PAD11A01
PAD11A02
PAD11B01
PAD11B02
COD11B
PAD11B01
PAD11B02
PAD12A01
PAD12A02
COD12A
PAD12A01
PAD12A02
PAD12B01
PAD12B02
COD12B
PAD12B01
PAD12B02
PAD13A01
PAD13A02
COD13A
PAD13A01
PAD13A02
PAD13B01
PAD13B02
COD13B
PAD13B01
PAD13B02
PAD14A01
PAD14A02
COD14A
PAD14A01
PAD14A02
PAD14B01
PAD14B02
COD14B
PAD14B01
PAD14B02
PAD15A01
PAD15A02
COD15A
PAD15A01
PAD15A02
PAD15B01
PAD15B02
COD15B
PAD15B01
PAD15B02
PAGPIN001
COGPIN0
PAGPIN001
PAGPIN101
COGPIN1
PAGPIN101
PAJ001 PAJ002
COJ0
PAJ001 PAJ002
PAJ102
PAJ101
COJ1
PAJ101 PAJ102
PAJ202
PAJ201
COJ2
PAJ201 PAJ202
PAJ302
PAJ301
COJ3
PAJ301 PAJ302
PAJ402
PAJ401
COJ4
PAJ401 PAJ402
PAJ501 PAJ502
COJ5
PAJ502
PAJ501
PAJ601 PAJ602
COJ6
PAJ602
PAJ601
PAJ702
PAJ701
COJ7
PAJ701 PAJ702
PAJ802
PAJ801
COJ8
PAJ801 PAJ802
PAJ901 PAJ902
COJ9
PAJ902
PAJ901
PAJ1002
PAJ1001
COJ10
PAJ1001 PAJ1002
PAJ1101 PAJ1102
COJ11
PAJ1102
PAJ1101
PAJ1201 PAJ1202
COJ12
PAJ1202
PAJ1201
PAJ1302
PAJ1301
COJ13
PAJ1301 PAJ1302
PAJ1401 PAJ1402
COJ14
PAJ1402
PAJ1401
PAJ1502
PAJ1501
COJ15
PAJ1501 PAJ1502
PAJF101
PAJF102
PAJF103
PAJF104
PAJF105
PAJF106
PAJF107
COJF1
PAJH02
PAJH01 COJH
PAJH02
PAJH01
PAJL01 PAJL02
COJL
PAJL01 PAJL02
PAJL002
PAJL001
COJL0
PAJL002
PAJL001
PAJL101 PAJL102
COJL1
PAJL101 PAJL102 PAJL201 PAJL202
COJL2
PAJL201 PAJL202
PAJL302
PAJL301
COJL3
PAJL302
PAJL301
PAJL401 PAJL402
COJL4
PAJL401 PAJL402
PAJL502
PAJL501
COJL5
PAJL502
PAJL501
PAJL601 PAJL602
COJL6
PAJL601 PAJL602
PAJL702
PAJL701
COJL7
PAJL702
PAJL701
PAJL801 PAJL802
COJL8
PAJL801 PAJL802
PAJL902
PAJL901
COJL9
PAJL902
PAJL901
PAJL1001 PAJL1002
COJL10
PAJL1001 PAJL1002
PAJL1102
PAJL1101
COJL11
PAJL1102
PAJL1101
PAJL1201 PAJL1202
COJL12
PAJL1201 PAJL1202
PAJL1302
PAJL1301
COJL13
PAJL1302
PAJL1301
PAJL1401 PAJL1402
COJL14
PAJL1401 PAJL1402
PAJL1502
PAJL1501
COJL15
PAJL1502
PAJL1501
PAJNTC02 PAJNTC01
COJNTC
PAJNTC02 PAJNTC01
PAJVL02
PAJVL01
COJVL
PAJVL01 PAJVL02
PAJVS0VL01 PAJVS0VL02
COJVS0VL
COLG1
PANTC02
PANTC01
CONTC
PANTC02
PANTC01
PAR101 PAR102
COR1
PAR101 PAR102
PAR202 PAR201
COR2
PAR201
PAR202
PAR301
PAR302
COR3
PAR401
PAR402
COR4
PAR502
PAR501
COR5
PAR501
PAR502
PAR602
PAR601
COR6
PAR601
PAR602
PAR701
PAR702
COR7
PAR702
PAR701
PAR801
PAR802
COR8
PAR902
PAR901
COR9
PAR1001
PAR1002
COR10
PAR1101
PAR1102
COR11
PAR1201
PAR1202
COR12
PAR1301
PAR1302
COR13
PARH102
PARH101
CORH1
PARH202
PARH201
CORH2
PARNTC01
PARNTC02
CORNTC
PARNTC01
PARNTC02
PARX01
CORX
PATX01
COTX
PAU102 PAU103
PAU104
PAU105 PAU106
PAU107 PAU108
PAU109
PAU1010 PAU1011 PAU1012
PAU1013
PAU1014
PAU1015
PAU1016
PAU1017
PAU1018
PAU1019
PAU1020
PAU1021
PAU1022
PAU1023
PAU1024
PAU1025
PAU101
COU1
PAU101
PAU1025
PAU1024 PAU1023 PAU1022
PAU1021
PAU1020 PAU1019
PAU1018 PAU1017
PAU1016 PAU1015 PAU1014 PAU1013
PAU1012
PAU1011
PAU1010
PAU109
PAU108
PAU107
PAU106
PAU105
PAU104
PAU103
PAU102
PAU308
PAU305
PAU301
PAU304
PAU307
PAU306
PAU302
PAU303
COU3
PAVDD5V01
COVDD5V
PAVDD5V01
PAVDD5V0101
COVDD5V01
PAVLED01
COVLED
PAVLED01
PAVLED0REV01
COVLED0REV
PAVS01
COVS
PAVS01
PAVS0REV01
COVS0REV
PAC101
PAC201
PAC1001
PAC1102
PAC1201
PAC1301
PACNTC01
PACVDD101
PACVDD201
PACVL101
PACVL201
PACVL301
PACVS101
PACVS201
PAJF101
PANTC02
PAR301
PAR302
PAU1022
PAU1025
PAU302
PAU308
PAGPIN001
PAJF104
PAR601
PAGPIN001
PAJF103
PAR601
PAR1101
PAR1102
PAGPIN101
PAR701
PAC1202
PAJH01
PAR401
PAR402
PARH102
PAU1024
PAC1302
PAJL01
PAR1001
PAR1002
PARH202
PAU1023
PAC202
PAR101
PAR202
PAC1101
PAR801
PAR902
PAD0A01
PAD0B02
PAJL002
PAD0A02 PAD1A02 PAD2A02
PAD3A02
PAD4A02 PAD5A02 PAD6A02
PAD7A02
PAD8A02 PAD9A02
PAD10A02
PAD11A02
PAD12A02 PAD13A02 PAD14A02
PAD15A02
PAJVL02
PAD0B01
PAJ002
PAJL001
PAD1A01
PAD1B02
PAJL102
PAD1B01
PAJ102
PAJL101
PAD2A01
PAD2B02
PAJL202
PAD2B01
PAJ202
PAJL201
PAD3A01
PAD3B02
PAJL302
PAD3B01
PAJ302
PAJL301
PAD4A01
PAD4B02
PAJL402
PAD4B01
PAJ402
PAJL401
PAD5A01
PAD5B02
PAJL502
PAD5B01
PAJ502
PAJL501
PAD6A01
PAD6B02
PAJL602
PAD6B01
PAJ602
PAJL601
PAD7A01
PAD7B02
PAJL702
PAD7B01
PAJ702
PAJL701
PAD8A01
PAD8B02
PAJL802
PAD8B01
PAJ802
PAJL801
PAD9A01
PAD9B02
PAJL902
PAD9B01
PAJ902
PAJL901
PAD10A01
PAD10B02
PAJL1002
PAD10B01
PAJ1002
PAJL1001
PAD11A01
PAD11B02
PAJL1102
PAD11B01
PAJ1102
PAJL1101
PAD12A01
PAD12B02
PAJL1202
PAD12B01
PAJ1202
PAJL1201
PAD13A01
PAD13B02
PAJL1302
PAD13B01
PAJ1302
PAJL1301
PAD14A01
PAD14B02
PAJL1402
PAD14B01
PAJ1402
PAJL1401
PAD15A01
PAD15B02
PAJL1502
PAD15B01
PAJ1502
PAJL1501
PAJH02
PAR102
PAJL02
PAR201
PAJNTC01
PAR702
PAU103
PAR502
PAU104
PAR602
PAU102
PACO002
PAJ001
PAU105
PACO102
PAJ101
PAU106
PACO202
PAJ201
PAU107
PACO302
PAJ301
PAU108
PACO402
PAJ401
PAU109
PACO502
PAJ501
PAU1010
PACO602
PAJ601
PAU1011
PACO702
PAJ701
PAU1012
PACO802
PAJ801
PAU1013
PACO902
PAJ901
PAU1014
PACO1002
PAJ1001
PAU1015
PACO1102
PAJ1101
PAU1016
PACO1202
PAJ1201
PAU1017
PACO1302
PAJ1301
PAU1018
PACO1402
PAJ1401
PAU1019
PACO1502
PAJ1501
PAU1020
PAR802
PARH101
PAU307
PAR901
PARH201
PAU306
PAJF106
PARX01
PAU304
PAJF107
PATX01
PAU301
PAC102
PAC1002
PACVDD102
PACVDD202
PARNTC02
PAU101
PAU303
PAU305
PAVDD5V01
PAVDD5V0101
PACO001
PACO101
PACO201
PACO301
PACO401
PACO501
PACO601
PACO701
PACO801
PACO901
PACO1001
PACO1101
PACO1201
PACO1301
PACO1401
PACO1501
PACVL102
PACVL202
PACVL302
PAD101
PAJVL01
PAR501
PAVLED01
PAD102
PAJF105
PAJVS0VL02
PAR1301
PAR1302
PAVLED0REV01
PACVS102
PACVS202
PAD201
PAU1021
PAVS01
PAD202
PAJF102
PAJVS0VL01
PAR1201
PAR1202
PAVS0REV01
PACNTC02
PAJNTC02
PANTC01
PARNTC01
Figure 10 Bottom layer
3.3 Bill of material
Table 3 Bill of material
Designator Value Quantity Footprint Voltage
[V]
Note
C1, C10 470nF 2 C0603 25 X7R 5%
C12, C13 47pF 4 C0603 50 X7R 5%
C2, C11 4.7nF 3 C0603 50 X7R 5%
CNTC, CO0, CO1, CO2, CO3,
CO4, CO5, CO6, CO7, CO8,
CO9, CO10, CO11, CO12,
CO13, CO14, CO15
10nF 34 C0603 25 X7R 5%
(table continues...)
TLD7002-16SYS_EVAL board
User guide
3 System design
User guide 14 Revision 1.00
2023-05-29
Table 3 (continued) Bill of material
Designator Value Quantity Footprint Voltage
[V]
Note
CVDD1, CVL2, CVL3, CVS1 100nF 8 c0603 25 X7R 5%
CVDD2 4.7uF 2 c0805 10 X7R 5%
CVL1, CVS2 470nF 4 C0805 50 X7R 5%
D0A, D0B, D1A, D1B, D2A,
D2B, D3A, D3B, D4A, D4B,
D5A, D5B, D6A, D6B, D7A,
D7B, D8A, D8B, D9A, D9B,
D10A, D10B, D11A, D11B,
D12A, D12B, D13A, D13B,
D14A, D14B, D15A, D15B
Red LED 64 LED SMD Lite On
PLCC-4 LS E67B
– –
D1, D2 CUHS20F30,H3F 4 DIO-SMD-US2H
GPIN0, GPIN1, VLED_REV,
VS_REV
5001 6 PAD D3 H2
J0, J1, J2, J3, J4, J5, J6, J7,
J8, J9, J10, J11, J12, J13,
J14, J15, JVL,'R3, R4, R10,
R11, R12, R13, RH1, RH2
0R 42 R0603 – –
JF1 TE 3-1534796-7 Not
Populated
– –
JVS_VL Close 1 Solder Jumper
JH, JL, JL0, JL1, JL2, JL3,
JL4, JL5, JL6, JL7, JL8, JL9,
JL10, JL11, JL12, JL13,
JL14, JL15, JNTC
Open 38 Solder Jumper
NTC Mitsubishi
TD11-3H103F NTC
10k
2 r0603 Use this
NTC or
similar
10k
R1, R2, R8, R9 59R 6 R0603
R5, R6, R7 4.7k 6 R0603
RNTC 10k 2 R0603 – –
U1 TLD7002-16ES_TDS 2 PG-TSDSO-24
U3 TLE9351VSJ 1 PG-DSO-8 – –
TLD7002-16SYS_EVAL board
User guide
3 System design
User guide 15 Revision 1.00
2023-05-29
References
[1] Arduino IDE downloads:; https://www.arduino.cc/en/soware
[2] Infineon TLD7002-16ES https://www.infineon.com/cms/en/product/power/lighting-ics/litix-automotive-
led-driver-ic/litix-pixel-rear/tld7002-16es/
[3] Infineon TLD7002-16ES OTP programming procedure https://www.infineon.com/
dgdl/Infineon-Infineon-TLD7002-16ES_OTP_programming_procedure-AN-v01_20-EN-ApplicationNotes-
v01_20-EN.pdf?fileId=8ac78c8c80f4d32901816672cf833ad1
[4] Infineon TLD7002-16SYS_EVAL https://www.infineon.com/cms/en/product/power/lighting-ics/litix-
automotive-led-driver-ic/litix-pixel-rear/tld7002-16es/?tab=~%27boards_designs#!designsupport
[5] Infineon Developer Center Launcher https://www.infineon.com/cms/en/design-support/tools/utilities/
infineon-developer-center-idc-launcher/
TLD7002-16SYS_EVAL board
User guide
References
User guide 16 Revision 1.00
2023-05-29
Revision history
Document
version
Date of
release
Description of changes
2023-05-29 Rev.1.00 Initial release
TLD7002-16SYS_EVAL board
User guide
Revision history
User guide 17 Revision 1.00
2023-05-29
Trademarks
All referenced product or service names and trademarks are the property of their respective owners.
Edition 2023-05-29
Published by
Infineon Technologies AG
81726 Munich, Germany
© 2023 Infineon Technologies AG
All Rights Reserved.
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