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Texas Instruments TPS65987-90 Evaluation Module (Rev. A) User guides
User's Guide
SLVUBF3A – May 2018 – Revised August 2018
TPS65987-90 Evaluation Module
This user’s guide describes the TPS65987 evaluation module (TPS65987-90EVM). The TPS6598790EVM allows for evaluation of the TPS65987 device as part of a stand-alone testing kit and for
development and testing of USB Type-C™ and Power Delivery (PD) end products.
1
2
3
4
5
Contents
Introduction ................................................................................................................... 2
Setup ......................................................................................................................... 3
Using the TPS65987-90EVM............................................................................................... 7
Schematic .................................................................................................................... 8
Bill of Materials ............................................................................................................. 14
List of Figures
1
TPS65987-90EVM Board ................................................................................................... 2
2
TPS65987-90EVM Block Level Diagram ................................................................................. 3
3
Power Path Jumper Configuration for Source or Sink .................................................................. 4
4
USB Type-C™ and DP Expansion Pack Connectors ................................................................... 8
5
FTDI Device and Connector
6
7
8
9
............................................................................................... 9
USB PD Controller and Memory ......................................................................................... 10
USB PD Power Paths ..................................................................................................... 11
Variable DC/DC Controller ................................................................................................ 12
Buck and Boost DC/DC Convertors ..................................................................................... 13
List of Tables
.......................................................................................................
1
Jumper Configuration
2
Connector Functionality ..................................................................................................... 5
4
3
Test Points .................................................................................................................... 5
4
LEDs ........................................................................................................................... 5
5
S1 Switch Bank .............................................................................................................. 6
6
S4 Switch Bank .............................................................................................................. 6
7
Push Buttons ................................................................................................................. 6
8
TPS65987-90EVM Bill of Materials ...................................................................................... 14
Trademarks
USB Type-C is a trademark of USB Implementers Forum.
DisplayPort is a trademark of Video Electronics Standards Association.
All other trademarks are the property of their respective owners.
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1
Introduction
1
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Introduction
Texas Instrument's (TI’s) TPS65987-90 evaluation module helps designers evaluate the operation and
performance of the TPS65987 device.
The TPS65987 device is a USB Type-C and Power Delivery (PD) controller providing cable plug and
orientation detection at the USB Type-C connector. Upon cable detection, the TPS65987 communicates
on the CC wire using the USB PD protocol. When cable detection and USB PD negotiation are complete,
the TPS65987 device enables the appropriate power path and configures Alternate Mode settings for
external multiplexers. The TPS65987D device has two internal power paths that can source or sink up to 5
A. The EVM is customizable through the TPS65987 Application Customization Tool. Additionally, the EVM
is equipped with an FTDI chip for flashing a new project through SPI or I2C for debugging and
development.
Figure 1 shows the TPS65987-90EVM board and Figure 2 shows a block level diagram.
Figure 1. TPS65987-90EVM Board
2
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Introduction
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U1
SSTX/RX
USB D+/D-
FTDI
FT4232HL
D+/D-
AUX/SBU1/2
VBUS
J3
Type B (micro)
Receptacle
DP adapter 40-pin
Connector
Flash
SPI
J2
Type C
Receptacle
VIN 5 V
5V
Boost DC/DC
SSTX/RX
USB2.0
SBU1/2
CC1/2
U5
U4
GPIO
I2C
VIN 3V3
3.3 V
SPI
PP_CABLE
Buck DC/DC
CC1/2
VIN
3.3 V
VIN 3V3
J4
SYS PWR
DC Barrel
Jack
20 V
VBUS
PPHV1
J1
Sink Path
SYS PWR
PPHV2
J6
Source Path
VAR DC
J9
Variable
DC/DC
5 V, 9 V, 15 V, 20 V
TPS65987D/S
(PD ctrl w/ Pwr paths)
V_CTL
PPEXT_GPIO
GPIO
PFET Control
Optional Sink Path
SYS PWR
Figure 2. TPS65987-90EVM Block Level Diagram
1.1
Items Required for Operation
The following is required to operate the EVM:
• TPS65987x Data Sheet
• TPS65987-90EVM
• TPS65987-90EVM Application Customization Tool (GUI)
• 20-V barrel jack adapter or dc power supply
• Active or e-marked USB Type-C cables
• USB Type-A to USB Micro-B cable ( for configuration customization, debugging and updating FW
flash)
• DP-EXPANSION-EVM for testing DisplayPort™, USB data, or both
2
Setup
This section describes the header and jumper connections on the EVM and getting started using the
TPS65987-90EVM.
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Setup
2.1
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Jumper Configuration
Out of the box, the TPS65987_90EVM is configured to use TPS65987's PPHV1 as sink path (J4) and
PPHV2 as source path (J6), which matches the configuration of firmware already programmed in the
device. Using Application Customization Tool each of this power path can be programmed as either
source or sink.
Remember, the jumper configuration in the hardware must match the source and sink paths in the
software, Application Customization Tool (GUI). See Figure 3 and Table 1 for the jumper configuration.
TPS65987D Power
Paths
J6
sink
J4
SYS_PWR
1
SYS_PWR
PP_HV2
2
PP_HV1
VAR_DCDC
3
VAR_DCDC
sink
source
source
Jumper J5 & J7 are not used
J7
J5
SYS_PWR
1
SYS_PWR
PP_HV
2
PP_EXT
VAR_DCDC
3
VAR_DCDC
sink
sink
source
source
Figure 3. Power Path Jumper Configuration for Source or Sink
Table 1. Jumper Configuration
Jumper
4
Description
J4
TPS65987D power path: Jump pins 1-2 to sink on PP_HV1, or jump pins 2-3 to source on
PP_HV1
J6
TPS65987D power path: Jump pins 1-2 to sink on PP_HV2, or jump pins 2-3 to source on
PP_HV2
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Setup
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2.2
Connector Functionality
Table 2 lists the TPS65987-90EVM connector and functionality.
Table 2. Connector Functionality
Designator
2.3
Description
J1
USB Type-C connector: TI recommends using an active or e-marked USB Type-c cable
J2
Expansion board connector: Connect the DP-EXPANSION-EVM to evaluate DisplayPort and USB3.2 data
J3
Micro-B connector: Connect to a PC to flash a project on the PD controller. You must download the
Application Customization Tool (GUI) to flash a project properly.
J9
Barrel jack connector: Use a 19-V to 20-V DC supply. A standard Dell or HP notebook adapter (or similar) will
provide the required power.
Test Points
Table 3 lists the TPS65987-90EVM test points.
Table 3. Test Points
2.4
Test Point
Label
TP1
VBUS
Description
TP2
CC1
System side CC1. This could be VCONN or CC depending on polarity flip of the USB
Type-C cable.
TP3
CC2
System side CC2. This could be VCONN or CC depending on polarity flip of the USB
Type-C cable.
TP4, TP5
GND
Ground reference for entire board
TP6
P3V3
Output of 3.3-V DC/DC convertor to power up all ICs on the EVM
TP7
P5V0
Output of 5-V DC/DC convertor used for PP_CABLE (VCONN)
VBUS voltage on the USB Type-C connector. Sourcing and sinking is always in
reference to VBUS (Source to VBUS or sink from VBUS).
LEDs
Table 4 lists the TPS65987-90EVM LEDs.
Table 4. LEDs
Designator
(1)
Label
Description
D12
μB VBUS
D13
SSMX: DP (1)
White LED that shows when the μB port is connected (FTDI for GUI).
White LED that shows when the TPS65987D device has enabled this signal for the
super-speed MUX in the DP-EXPANSION-EVM (depending on version of EVM the
silkscreen may appear to show this signal swapped with SSMX: USB3)
D14
SSMX: FLIP
White LED that shows when the TPS65987D device has enabled this signal for the
super-speed MUX in the DP-EXPANSION-EVM
D15
SSMX: USB3 (1)
White LED that shows when the TPS65987D device has enabled this signal for the
super-speed MUX in the DP-EXPANSION-EVM
D16
VBUS
D19
SYS_PWR
White LED that shows when VBUS has a voltage of 5 V, 9 V, 15 V, or 20 V
D20
VAR_DCDC
D22
PDO_0
White LED that shows when there is a 5-V PD contract (only shown when sourcing)
D22
PDO_1
White LED that shows when there is a 9-V PD contract (only shown when sourcing)
D24
PDO_2
White LED that shows when there is a 15-V PD contract (only shown when sourcing)
D25
PDO_3
White LED that shows when there is a 20-V PD contract (only shown when sourcing)
Blue LED that shows when the barrel jack is connected
Green LED that shows when there is a voltage on the variable DC/DC controller (U9).
When the EVM acts as a source, D20 lights up.
On the EVM board silkscreen print the SSMX: DP and SSMX: USB3 signals are swapped.
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Setup
2.5
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Switches
Table 5, Table 6, and Table 7 lists the TPS65987-90EVM switches. For S1, make sure to leave all six
switches in the ON position (to the right) for flashing a project and debugging. For S4 Switch: EVM out of
th box should have S4->4 (BP_WaitFor3V3_Internal) as on(right). This ensures that PD controller enables
internal paths in dead battery mode. This switch can be turned off(left) if EVM is used as source only.
Table 5. S1 Switch Bank
Switch (S1)
Description
1: SPI_CLK
Connects SPI_CLK node from FTDI to TPS65987D, EEPROM when the switch is in the ON position (to the
right), and disconnects when in the OFF position (to the left)
2: SPI_MOSI
Connects SPI_MOSI node from FTDI to TPS65987D, EEPROM when the switch is in the ON position (to
the right), and disconnects when in the OFF position (to the left)
3: SPI_MISO
Connects SPI_MISO node from FTDI to TPS65987D, EEPROM when the switch is in the ON position (to
the right), and disconnects when in the OFF position (to the left)
4: SPI_CSZ
Connects SPI_CSZ node from FTDI to TPS65987D, EEPROM when the switch is in the ON position (to the
right), and disconnects when in the OFF position (to the left)
5: I2C_SCL
Connects I2C_SCL node from FTDI to TPS65987D, EEPROM when the switch is in the ON position (to the
right), and disconnects when in the OFF position (to the left)
6: I2C_SDA
Connects I2C_SDA node from FTDI to TPS65987D, EEPROM when the switch is in the ON position (to the
right), and disconnects when in the OFF position (to the left)
Table 6. S4 Switch Bank
Switch (S4)
Description
1, 2, 3 OFF
I2C address selection: 000b
1 ON Only
I2C address selection: 001b
2 ON Only
I2C address selection: 010b
3 ON Only
I2C address selection: 011b
4, 5, 6 OFF
Dead battery mode: BP_NoResponse
4 ON Only
Dead battery mode: BP_WaitFor3V3_Internal
5 ON Only
Dead battery mode: BP_WaitFor3V3_External
6 ON Only
Dead battery mode: BP_NoWait
Table 7. Push Buttons
6
Designator
Label
S2
PD Reset
This switch is a push-button that pulls the HRESET pin (44) of the TPS65987D device high
when pressed. Releasing the push-button pulsl HRESET low again, and the TPS65987D
device goes through a soft reset, which consists of reloading firmware from RAM. If a valid
configuration is present in RAM, the TPS65988 device will not reload configuration from the
external flash.
Description
S3
Disable Flash
Config
This push button switch will hold the SPI Miso line to GND. Use this button when booting the
device. If this button is pressed when the device is booting, the TPS65987D device does not
load its configuration from the SPI Flash and instead boots into a default ROM configuration.
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3
Using the TPS65987-90EVM
This section discusses how to power the EVM, configure the firmware, and how to debug.
3.1
Powering the TPS65987-90EVM
The main power supply for the EVM is the barrel jack (J9), which accepts 19 V to 20 V via a barrel jack
adapter. The EVM can also be powered with an external power supply on SYS_PWR (pin 1 of J4, J5, J6,
or J7). The input voltage can range from 5 V to 20 V, but configure the appropriate power profile for
PP_HV in the firmware using the configuration tool. The EVM can also be powered as a sink through a
USB Type-C cable from a source adaptor, EVM, or device.
3.2
Firmware Configurations
Out of the box, the TPS65987-90EVM is configured to emulate a single port laptop computer. This
configuration can be used to source or sink power known as (DRP), and this configuration sets DFP_D
(Downward Facing Port). on DP expansion connector a DP_EXPANSION (source) EVM can be connected
to test Display port alternate mode. If different configurations are required to test your system, use the
TPS65987_8 Application Configuration Tool (GUI) to create a configuration or load a different
configuration template.
3.3
Debugging the EVM
The following checks can help resolve issues when connecting the EVM to another EVM or USB Type-C
device and no status LEDs are on:
• Make sure that a firmware image is loaded on the TPS65987-90EVM, using the TPS65987_8
Application Configuration Tool (GUI).
• Make sure the CC lines are toggling for dual-role port functionality.
• Make sure the following system supplies:
– P3V3 = 3.3 V
– P5V0 = 5 V
– Barrel jack / SYS_PWR = 20 V (when plugged in)
– VAR_DCDC = 5 V (when barrel jack is plugged in without a USB Type-C attached cable or device)
– VBUS = 5 V, 9 V, 15 V, or 20 V (when USB Type-C port is attached to another EVM or device)
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Schematic
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Schematic
Figure 4 to Figure 9 illustrate the TPS65987-90EVM schematics.
USB Type-C Connector
TP1
VBUS
C1
4.7µF
C2
0.01µF
D1
C3
0.01µF
C4
0.01µF
C5
0.01µF
R1
3.48
GND
J1
VBUS
C_CC1
C_USB_P
C_USB_N
C_SBU_P
VBUS
C_SSRX2_N
C_SSRX2_P
H5
D3
D4
D5
1
GND
GND
RX1+
RX1VBUS
SBU2
DD+
CC2
VBUS
TX2TX2+
GND
H5
1
D2
GND
TX1+
TX1VBUS
CC1
D+
DSBU1
VBUS
RX2RX2+
GND
GND
3
TC_SSTX1_P
TC_SSTX1_N
2
0
C6
H4
H3
H6
H1
H2
H4
H3
GND
B12
B11
B10
B9
B8
B7
B6
B5
B4
B3
B2
B1
C_SSRX1_P
C_SSRX1_N
VBUS
C_SBU_N
C_USB_N
C_USB_P
C_CC2
VBUS
0
TC_SSTX2_N
TC_SSTX2_P
H1
H2
D6
D7
D8
D9
D10
C8
0
C_SSTX2_N
C_SSTX2_P
C9
D11
3
C_SSTX1_P
C_SSTX1_N
0
C7
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
2
H6
GND
GND
GND
GND
C_SBU_N
C_SBU_P
R2
0
DNP
R3
0
DNP
DP_SBU_N
DP_SBU_P
DP_SBU_N
DP_SBU_P
R4
0
DNP
R5
0
DNP
SBU_N
SBU_P
DP Expansion Pack Connector
I2C1_IRQZ
GPIO_7/I2C3_IRQZ
I2C1_SCL
GPIO_5/I2C3_SCL
I2C1_SDA
GPIO_6/I2C3_SDA
SBU_P
SBU_N
C_USB_N
C_USB_P
R6
0
R7
0
DNP
R8
0
R9
0
DNP
R10
0
R11
0
DNP
I2C_IRQ_SAM
J2
I2C_SCL_SAM
I2C_SDA_SAM
C_SSRX2_P
C_SSRX2_N
C_SSTX1_N
C_SSTX1_P
C_SSTX2_P
C_SSTX2_N
C_SSRX1_N
C_SSRX1_P
GND
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
LDO_3V3
HPD
SSMX_USB3
SSMX_DP
SSMX_FLIP
VAR_DCDC
P5V0
P3V3
GND
Figure 4. USB Type-C™ and DP Expansion Pack Connectors
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Schematic
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FTDI Switches and Memory
FTDI Chip
C11
4.7uF
C10
0.1uF
1
2
3
4
5
6
F_SPI_CLK
F_SPI_MOSI
F_SPI_MISO
F_SPI_CSZ
F_I2C2_SCL
F_I2C2_SDA
P3V3
U1
C12
0.1uF
C13
4.7uF
GND
4
9
P3V3
VREGOUT
C14
0.1uF
C15
0.1uF
C16
0.1uF
P3V3
C18
0.1uF
GND
C19
0.1uF
C20
0.1uF
C21
0.1uF
P3V3
GND
VREGOUT
C22
4.7uF
F_USB_D_N
F_USB_D_P
R16
GND
VCORE
VCORE
VCORE
20
31
42
56
VCCIO
VCCIO
VCCIO
VCCIO
50
VREGIN
49
VREGOUT
7
8
DM
DP
6
REF
RESET#
63
62
61
EECS
EECLK
EEDATA
2
OSCI
3
OSCO
ADBUS0
ADBUS1
ADBUS2
ADBUS3
ADBUS4
ADBUS5
ADBUS6
ADBUS7
16
17
18
19
21
22
23
24
BDBUS0
BDBUS1
BDBUS2
BDBUS3
BDBUS4
BDBUS5
BDBUS6
BDBUS7
26
27
28
29
30
32
33
34
CDBUS0
CDBUS1
CDBUS2
CDBUS3
CDBUS4
CDBUS5
CDBUS6
CDBUS7
38
39
40
41
43
44
45
46
DDBUS0
DDBUS1
DDBUS2
DDBUS3
DDBUS4
DDBUS5
DDBUS6
DDBUS7
48
52
53
54
55
57
58
59
F_SPI_CLK
F_SPI_MOSI
F_SPI_MISO
F_SPI_CSZ
P3V3
R12
10.0k
C17
0.1uF
R13
10.0k
R14
10.0k
U2
EEDATA
F_I2C2_SCL
F_I2C2_SDA
GND
6
VCC
3
DI
5
EECS
4
EECLK
DO
R15
1
2.20k
EEDATA
CS
CLK
VSS
2
93LC56B-I/OT
GND
1
C23
S1
VPLL
12k
RESETN 14
EECS
EECLK
EEDATA
SPI_CLK
SPI_MOSI
SPI_MISO
SPI_CSZ
I2C2_SCL
I2C2_SDA
VPHY
12
37
64
GND
12
11
10
9
8
7
10
1
5
11
15
25
35
47
51
0
R17
27pF
GND
Make sure to keep Y1 traces the same length
TEST
AGND
GND
GND
GND
GND
GND
GND
GND
GND
FT4232HL
PWREN#
SUSPEND#
Micro-B Connector
R18
60
36
DNP
DNP
R19
GND
GND
GND
5
ID
4
D+
3
D-
2
GND
J3
VBUS
1
U3
F_USB_D_P
D-
2
F_USB_D_N
3
TPD2E009DRTR
GND
F_USB_D_N
L1 26 ohm
F_VBUS
10
8
6
R20
4.70k
2
D12
White
R21
RESETN
1.00k
GND
R22
10.0k
P3V3
D+
GND
F_USB_D_P
C25
0.01µF
ULINK2 Debugger
1
1
2
13
12MHz
7
C24
9
Y1
0 0
27pF
R23
10.0k
R24
10.0k
GND
SWD_DATA
SWD_CLK
GND
R25
0
DNP
R26
0
DNP
R27
10.0k
GND
Figure 5. FTDI Device and Connector
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Schematic
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Figure 6. USB PD Controller and Memory
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Schematic
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External Power Path (PD Controller )
R52
0
DNP
R53
SYS_PWR
Q4A
Q4B
0
1
C31
22µF
C32
R54
0.1µFDNP
10.0k
C33
0.1µF
VBUS
5,6
R55
10.0k
2
C30
22µF
3
7,8
R56 DNPC34
DNP
10.0k
0.1µF
4
VAR_DCDC
GND
R57
10.0k
LDO_3V3
C35
0.1µF
R60
10.0k
3
R58
R59
60.4k 60.4k
R61
PP_EXT2_EN
1
1
Q5
Q6
1
R62
DNP
100k
2
4
V+
V-
1.00k
3
5
GND
3
2
R64
10.0k
2
U6
R63
10.0k
GND
GND
R65
GND
576k
USB PD Power Path
U4B
C37
10µF
GND
C38
10µF
GND
P5V0
P3V3
R67
0
DNP
PP_CAB_87
25
R131 0
46
R68
DNP
0
GND
C39
GND
22µF
DRAIN1
GND
DRAIN2
8
15
19
58
7
52
56
57
20
51
59
LDO_1V8
VBUS1
VBUS1
14
13
VBUS2
VBUS2
3
4
LDO_3V3
PP1_CABLE
GND
DRAIN1
DRAIN1
DRAIN1
DRAIN1
VBUS
11
12
PP_HV1
PP_HV2
PP_HV2
1
2
PP_HV2
VIN_3V3
5
PP_HV1
PP_HV1
GND
P3V3
DRAIN2
DRAIN2
DRAIN2
DRAIN2
GND
GND
GND
R66
10.0k
C36
1µF
1
9
LDO_3V3
D16
2
35
LDO_1V8
C42
10µF
C40
10µF
White
C41
10µF
GND
GND
GND
GND
TPS65987DDHRSHR
GND
Figure 7. USB PD Power Paths
SLVUBF3A – May 2018 – Revised August 2018
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Schematic
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Variable DC/DC Convertor: 5V, 9V, 15V, 20V
Output capacitors must be rated to
at least 25V and have ESR in 100s of mOhms
SYS_
SYS_PWR
J9
PAD
GND
GND
GND
PGATE
7
5
ADJ
ISEN
1
EN
6
PGND
FB
4
GND
2
270
LM3489QMM/NOPB
2
GND
Change PDO's
GND
PDO_1
Q11
FB node on VAR_DC
Q12
1
PDO_2
R105
10.0k
Q13
1
PDO_3
R109
100k
R111
8.87k
GND
R110
100k
R112
3.65k
Q14
EN_VAR1
2
R108
100k
2
C58
R107
1000pF 9.53k
GND
2
3
1
GND
GND
TP5
2
C56
0.1µF
D20
Green
R103
GND
SYS_PWR
1
C51
47µF
1
VIN
3
C57
100pF
R100
30k
8
2
7
3
2
1
EN_VAR
R106
11.0k
C50
47µF
3
GND
R104
10k
GND
D18
U9
R102
100k
GND
TP4
VAR_DCDC
10µH
3
7,8
5,6,
R99
47.5k
3
D19
Blue
C54
C55
0.1µF 1000pF
3
U8
2
R101
100k
C53
22µF
2
POWER
C52
22µF
1
GND
GND
1,2,3
R98
0
DNP
1
3
4
SENSE
1
POWER
SW_Node_VARDC
2
6
5
4
5
4
L2
Q10
SHIELD
SHIELD
SHIELD
SHIELD
IN
IN
IN
9
8
7
6
R113
2.20k
D21
DNP
3
GND
PDO_3
0
0
0
1
GND
PDO_2
0
0
1
0
PDO_1
0
1
0
0
Feedback (R1)
30k
30k
30k
30k
Output Voltage
5V
9V
15V
20V
Feedback (R2)
9.53k
4.59k
2.64k
1.79k
Output Voltage
5.14V
9.33V
15.32
22.03
Var. DC/DC Control LED's
C63
22µF
C64
22µF
C65
22µF
C66
22µF
C67
22µF
C68
22µF
C69
22µF
C70
22µF
C71
22µF
C72
22µF
Q15
1
PDO_1
PD
PDO_2
PD
1
2
3
Q17
1
White
R117
10.0k
3
Q16
1
PDO_3
2
C62
22µF
2
C61
22µF
D25
20V
White
R116
10.0k
3
R115
10.0k
3
PDO_0
C60
22µF
2
SYS_PWR
D24
15V
White
Q18
1
2
2
2
R114
10.0k
Fast Role Swap Caps
C59
22µF
D23
9V
White
2
D22
5V
1
1
1
P3V3
GND
GND
Figure 8. Variable DC/DC Controller
12
TPS65987-90 Evaluation Module
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Barrel Jack Detection
Buck Convertor: SYS_PWR => 3.3V
&
Boost Convertor: 3.3V => 5V
P3V3
C73
0.1µF
SYS_PWR
C75
22µF
C76
0.1µF
R120
150k
BOOT
L3
9
TP6
0
0.1µF
8
GND
7
R124
2.61k
R126
66.5k
10
C83
6800pF
GND
PGD_3V3
C82
300pF
PH
2
VSENSE
6
EN
SW Node Buck
P3V3
C77
47µF
10uH
COMP
GND
GND
GND
PAD
PGOOD
3
4
5
11
C79
0.1µF
C78
47µF
47µ
µF
R122
100k
R119
C81
220pF
C80
22pF
R121
15.0k
U11
4
3
5
V+
V-
1
/PGOOD
2
C74
VIN
6
GND
R118
100k
U10
1
SYS_PWR
R123
39k
R125
GND
V3V3_Sense
GND
560k
GND
GND
R127
32.4k
TPS54334DRCR
GND
R128
100k
GND
GND
P3V3
L4
SW Node Boost
2.2µH
U12
3
P3V3
C84
47µF
C85
0.1µF
4
IN
SW
AUX
EN
ENUSB
FAULT
GND
6
ILIM
USB
PGND
GND
PAD
R129
32.4k
ILim set
Max 1100mA
Typ 900mA
Min 700mA
1
10
C86
47µF
7
C87
0.1µF
TP7
8
9
P5V0
C88
47µF
2
5
11
GND
C89
47µF
TPS2500DRCR
GND
GND
GND
Figure 9. Buck and Boost DC/DC Convertors
SLVUBF3A – May 2018 – Revised August 2018
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Bill of Materials
5
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Bill of Materials
Table 8 lists the TPS65987-90EVM BOM.
Table 8. TPS65987-90EVM Bill of Materials
PartNumber
Manufacturer
Alternate PartNumber
Alternate
Manufacturer
Printed Circuit Board
PSIL034
Any
-
-
CAP, CERM, 4.7 µF, 35 V, +/- 10%, 0603
X5R, 0603
GRM188R6YA475KE15D
MuRata
0.01uF
CAP, CERM, 0.01 µF, 50 V, +/10%, X7R, 0402
0402
GRM155R71H103KA88D
MuRata
4
0
RES, 0, 5%, 0.05 W, 0201
0201
ERJ-1GE0R00C
Panasonic
10
0.1uF
CAP, CERM, 0.1 uF, 50 V, +/- 10%, 0402
X7R, 0402
C1005X7R1H104K050BB
TDK
C11, C13, C22
3
4.7uF
CAP, CERM, 4.7 uF, 10 V, +/- 20%, 0402
X5R, 0402
C1005X5R1A475M050BC
TDK
C23, C24
2
27pF
CAP, CERM, 27 pF, 50 V, +/- 1%,
C0G/NP0, 0603
CL10C270FB8NNNC
Samsung
ElectroMechanics
C25
1
0.01uF
CAP, CERM, 0.01 µF, 50 V, +/- 5%, 0402
X7R, 0402
C0402C103J5RACTU
Kemet
C26, C27
2
220pF
CAP, CERM, 220 pF, 25 V, +/10%, X7R, 0201
0201
GRM033R71E221KA01D
MuRata
C29
1
0.1uF
CAP, CERM, 0.1 µF, 16 V,+/- 10%,
X7R, 0402
0402
885012205037
Wurth
Elektronik
19
22uF
CAP, CERM, 22 µF, 35 V, +/- 20%,
X5R, 0805
0805
C2012X5R1V226M125AC
TDK
C32
1
0.1uF
CAP, CERM, 0.1 µF, 35 V,+/- 10%,
X5R, 0402
0402
GMK105BJ104KV-F
Taiyo Yuden
C33
1
0.1uF
CAP, CERM, 0.1 µF, 25 V,+/- 10%,
X7R, 0402
0402
GRM155R71E104KE14D
MuRata
C35
1
0.1uF
CAP, CERM, 0.1 µF, 25 V,+/- 10%,
X5R, 0402
0402
GRM155R61E104KA87D
MuRata
C36, C49
2
1uF
CAP, CERM, 1 µF, 50 V,+/- 10%,
X7R, 0603
0603
UMK107AB7105KA-T
Taiyo Yuden
C37, C38, C42
3
10uF
CAP, CERM, 10 µF, 10 V, +/- 20%,
X5R, 0402
0402
CL05A106MP5NUNC
Samsung
ElectroMechanics
C39, C47
2
22uF
CAP, CERM, 22 µF, 10 V, +/- 20%,
X5R, 0603
0603
C1608X5R1A226M080AC
TDK
Designator
Quantity
!PCB1
1
C1
1
4.7uF
C2, C3, C4,
C5, C28
5
C6, C7, C8, C9
C10, C12, C14,
C15, C16, C17,
C18, C19, C20,
C21
C30,
C53,
C61,
C64,
C67,
C70,
C75
14
C31,
C59,
C62,
C65,
C68,
C71,
C52,
C60,
C63,
C66,
C69,
C72,
Value
Description
PackageReference
0603
TPS65987-90 Evaluation Module
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Table 8. TPS65987-90EVM Bill of Materials (continued)
Designator
Quantity
Value
Description
PackageReference
PartNumber
Manufacturer
C40, C41
2
10uF
CAP, CERM, 10 µF, 25 V, +/- 20%,
X5R, 0603
0603
GRM188R61E106MA73D
MuRata
C43
1
1uF
CAP, CERM, 1 µF, 10 V,+/- 20%,
X5R, 0402
0402
GRM155R61A105ME15D
MuRata
C44
1
10uF
CAP, CERM, 10 µF, 10 V,+/- 20%,
X5R, 0402
0402
GRM155R61A106ME11
MuRata
C45
1
4.7uF
CAP, CERM, 4.7 µF, 10 V,+/- 20%,
X5R, 0402
0402
GRM155R61A475M
MuRata
C46
1
10uF
CAP, CERM, 10 µF, 35 V,+/- 20%,
X5R, 0603
0603
GRM188R6YA106MA73
Nichicon
C48
1
0.1uF
CAP, CERM, 0.1 µF, 50 V,+/- 10%,
X7R, 0402
0402
C1005X7R1H104K050BB
TDK
C50, C51
2
47uF
CAP, TA, 47 µF, 35 V, +/- 20%, 0.9
ohm, AEC-Q200 Grade 1, SMD
7343-43
TAJE476M035RNJ
AVX
C54
1
0.1uF
CAP, CERM, 0.1 µF, 50 V, +/- 10%, 0402
X7R, 0402
C1005X7R1H104K050BB
TDK
C55, C58
2
1000pF
CAP, CERM, 1000 pF, 50 V,+/20%, X7R, 0402
C1005X7R1H102M050BE
TDK
C56, C73
2
0.1uF
CAP, CERM, 0.1 µF, 35 V, +/- 10%, 0402
X5R, 0402
GMK105BJ104KV-F
Taiyo Yuden
C57
1
100pF
CAP, CERM, 100 pF, 50 V,+/- 10%, 0402
X7R, 0402
CC0402KRX7R9BB101
Yageo America
C74, C76, C85,
C87
4
0.1uF
CAP, CERM, 0.1uF, 50V, +/-20%,
C0G/NP0, 0402
C1005X7R1H104M
TDK
C77, C78
2
47uF
CAP, CERM, 47 µF, 6.3 V, +/- 20%, 0805
X5R, 0805
GRM21BR60J476ME15L
MuRata
C79
1
0.1uF
CAP, CERM, 0.1 µF, 25 V, +/- 10%, 0402
X7R, 0402
GRM155R71E104KE14D
MuRata
C80
1
22pF
CAP, CERM, 22 pF, 50 V, +/- 5%,
C0G/NP0, 0402
0402
C1005C0G1H220J050BA
TDK
C81
1
220pF
CAP, CERM, 220 pF, 50 V, +/10%, X7R, AEC-Q200 Grade 1,
0201
0201
CGA1A2X7R1H221K030BA
TDK
C82
1
300pF
CAP, CERM, 300 pF, 25 V, +/- 5%,
C0G/NP0, 0402
0402
GRM1555C1E301JA01D
MuRata
C83
1
6800pF
CAP, CERM, 6800 pF, 50 V, +/10%, X7R, 0402
0402
GRM155R71H682KA88D
MuRata
C84, C86, C88,
C89
4
47uF
CAP, CERM, 47 µF, 6.3 V, +/- 20%, 0603
X5R, 0603
GRM188R60J476ME15D
MuRata
D1
1
30V
Diode, Schottky, 30 V, 2 A, 2XFDFN
NSR20F30NXT5G
ON
Semiconductor
0402
0402
2-XFDFN
SLVUBF3A – May 2018 – Revised August 2018
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Alternate PartNumber
Alternate
Manufacturer
GRM188R61E106MA73
Murata
TPS65987-90 Evaluation Module
Copyright © 2018, Texas Instruments Incorporated
15
Bill of Materials
www.ti.com
Table 8. TPS65987-90EVM Bill of Materials (continued)
Designator
Quantity
D2, D3, D4,
D5, D6, D7,
D8, D9, D10,
D11
10
D12, D13, D14,
D15, D16, D22,
D23, D24, D25
9
D17
D18
Alternate
Manufacturer
Description
PackageReference
PartNumber
Manufacturer
Alternate PartNumber
1-Channel ESD Protection Diode
for USB Type-C and Thunderbolt 3,
DPL0002A (X2SON-2)
DPL0002A
TPD1E01B04DPLR
Texas
Instruments
TPD1E01B04DPLT
Texas
Instruments
White
LED, White, SMD
0402, White
LW QH8G-Q2S2-3K5L-1
OSRAM
1
Red
LED, Red, SMD
0402
APHHS1005SURCK
Kingbright
1
40V
Diode, Schottky, 40 V, 10 A,
PowerDI5
PowerDI5
PDS1040L-13
Diodes Inc.
D19
1
Blue
LED, Blue, SMD
1.6x0.8mm
LTST-C193TBKT-5A
Lite-On
D20
1
Green
LED, Green, SMD
LED_0603
150060GS75000
Wurth
Elektronik
H1, H2, H3, H4
4
Machine Screw, Round, #4-40 x
1/4, Nylon, Philips panhead
Screw
NY PMS 440 0025 PH
B&F Fastener
Supply
H5, H6, H7, H8
4
Standoff, Hex, 0.5"L #4-40 Nylon
Standoff
1902C
Keystone
J1
1
Connector, Receptacle, USB Type
C, R/A, SMT
Connector,
Receptacle, USB
Type C, SMT
20-0000016-01
Lintes
Technology
J2
1
Socket, 0.8mm, 20x2, Gold, SMT
Socket, 0.8mm, 20x2,
Gold, SMT
LSEM-120-03.0-F-DV-A-N-K-TR
Samtec
J3
1
Connector, Receptacle, Micro-USB
Type AB, R/A, Bottom Mount SMT
Connector,
Receptacle, MicroUSB Type AB, R/A,
Bottom Mount SMT
ZX62RD-AB-5P8(30)
Hirose Electric
Co. Ltd.
J4, J5, J6, J7
4
Header, 100mil, 3x1, Gold, TH
3x1 Header
TSW-103-07-G-S
Samtec
J8
1
Header, 50mil, 3x1, Gold, TH
Header, 3x1, 50mil,
TH
GRPB031VWVN-RC
Sullins
Connector
Solutions
J9
1
Connector, DC Power Jack, R/A, 3
Pos, TH
Power connector
JPD1135-509-7F
Foxconn
L1
1
26 ohm
Ferrite Bead, 26 ohm @ 100 MHz,
6 A, 0603
0603
BLM18SG260TN1D
MuRata
L2
1
10uH
Inductor, Shielded, Powdered Iron,
10 µH, 7.5 A, 0.03 ohm, AEC-Q200
Grade 1, SMD
11x10mm
SRP1038A-100M
Bourns
PA4342.103NLT
Pulse
Electronics
Power
L3
1
10uH
7.2 mm x 6.65 mm
ASPI-0630LR-100M-T15
ABRACON
-
-
L4
1
2.2uH
Inductor, Flat Wire, Powdered Iron,
2.2 µH, 4 A, 0.033 ohm, SMD
Inductor, 4.8x2x4mm
SRP4020-2R2M
Bourns
Q1, Q2, Q3
3
30V
MOSFET, N-CH, 30 V, 0.1 A, SOT416
SOT-416
2SK3019TL
Rohm
None
Q4
1
-30V
MOSFET, 2-CH, P-CH, -30 V, -60
A, 610x604x515mm
610x604x515mm
SI7997DP-T1-GE3
Vishay-Siliconix
None
16
Value
TPS65987-90 Evaluation Module
SLVUBF3A – May 2018 – Revised August 2018
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Table 8. TPS65987-90EVM Bill of Materials (continued)
Quantity
Value
Description
PackageReference
PartNumber
Manufacturer
Q5
1
30V
MOSFET, N-CH, 30 V, 0.35 A,
AEC-Q101, SOT-323
SOT-323
NX3008NBKW,115
NXP
Semiconductor
None
Q6
1
20V
MOSFET, N-CH, 20 V, 0.5 A,
YJM0003A (PICOSTAR-3)
YJM0003A
CSD15380F3
Texas
Instruments
None
Q7, Q8
2
30V
MOSFET, N-CH, 30 V, 60 A,
DNH0008A (VSONP-8)
DNH0008A
CSD17581Q3A
Texas
Instruments
None
Q9
1
-20V
MOSFET, P-CH, -20 V, -0.76 A,
SOT-416
SOT-416
NTA4151PT1G
ON
Semiconductor
None
Q10
1
-30V
MOSFET, P-CH, -30 V, -11 A, FET,
3x0.8x3mm
FET, 3x0.8x3mm
AON7403
AOS
None
Q11, Q12, Q13
3
20V
MOSFET, N-CH, 20 V, 1.05 A,
SOT-23
SOT-23
BSH105,215
NXP
Semiconductor
None
Q14, Q15, Q16, 5
Q17, Q18
30V
MOSFET, N-CH, 30 V, 0.18 A,
SOT-323
SOT-323
NX3020NAKW,115
NXP
Semiconductor
None
R1
1
3.48
RES, 3.48, 1%, 0.063 W, 0402
0402
CRCW04023R48FKED
Vishay-Dale
R2, R3, R4, R5
4
0
RES, 0, 5%, 0.05 W, 0201
0201
CRCW02010000Z0ED
Vishay-Dale
R6, R8, R10
3
0
RES, 0, 5%, 0.063 W, 0402
0402
ERJ-2GE0R00X
Panasonic
R12, R13, R14,
R22, R23, R30,
R32, R33, R34,
R41, R44, R55,
R57, R60, R63,
R64, R66, R89,
R105, R114,
R115, R116,
R117
23
10.0k
RES, 10.0 k, 1%, 0.1 W, 0402
0402
ERJ-2RKF1002X
Panasonic
R15
1
2.20k
RES, 2.20 k, 1%, 0.063 W, 0402
0402
RC0402FR-072K2L
Yageo America
R16
1
12k
RES, 12 k, 5%, 0.063 W, 0402
0402
CRCW040212K0JNED
Vishay-Dale
R17, R70, R72,
R73, R84, R85,
R119
7
0
RES, 0, 5%, 0.063 W, 0402
0402
CRCW04020000Z0ED
Vishay-Dale
R20
1
4.70k
RES, 4.70 k, 1%, 0.1 W, 0402
0402
ERJ-2RKF4701X
Panasonic
R21, R61
2
1.00k
RES, 1.00 k, 1%, 0.1 W, 0402
0402
ERJ-2RKF1001X
Panasonic
R24, R27
2
10.0k
RES, 10.0 k, 1%, 0.1 W, 0603
0603
RC0603FR-0710KL
Yageo America
R28, R29, R36,
R87, R88
5
3.83k
RES, 3.83 k, 1%, 0.063 W, 0402
0402
CRCW04023K83FKED
Vishay-Dale
R31
1
10.0k
RES, 10.0 k, 0.5%, 0.063 W, AECQ200 Grade 0, 0402
0402
CRCW040210K0DHEDP
Vishay-Dale
R35
1
3.83k
RES, 3.83 k, 1%, 0.063 W, AECQ200 Grade 0, 0402
0402
CRCW04023K83FKED
Vishay-Dale
R37, R49, R74,
R78, R81, R82,
R93, R96,
R131
9
0
RES, 0, 5%, 0.063 W, 0402
0402
RC0402JR-070RL
Yageo America
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Manufacturer
Designator
TPS65987-90 Evaluation Module
Copyright © 2018, Texas Instruments Incorporated
17
Bill of Materials
www.ti.com
Table 8. TPS65987-90EVM Bill of Materials (continued)
Designator
Quantity
Value
Description
PackageReference
PartNumber
Manufacturer
R38, R40, R50,
R51, R101,
R102, R108,
R109, R110,
R118, R122,
R128
12
100k
RES, 100 k, 1%, 0.063 W, 0402
0402
CRCW0402100KFKED
Vishay-Dale
R39
1
191k
RES, 191 k, 1%, 0.063 W, 0402
0402
CRCW0402191KFKED
Vishay-Dale
R42
1
316k
RES, 316 k, 1%, 0.063 W, 0402
0402
CRCW0402316KFKED
Vishay-Dale
R43
1
130k
RES, 130 k, 1%, 0.063 W, 0402
0402
CRCW0402130KFKED
Vishay-Dale
R45, R46, R47,
R48
4
3.3k
RES, 3.3 k, 5%, 0.063 W, 0402
0402
CRCW04023K30JNED
Vishay-Dale
R53
1
0
RES, 0, 5%, 0.125 W, 0805
0805
ERJ-6GEY0R00V
Panasonic
R58, R59
2
60.4k
RES, 60.4 k, 1%, 0.063 W, 0402
0402
CRCW040260K4FKED
Vishay-Dale
R65
1
576k
RES, 576 k, 1%, 0.063 W, 0402
0402
CRCW0402576KFKED
Vishay-Dale
R69
1
0.01
RES, 0.01, 1%, 0.5 W, 1206
1206
CSR1206FK10L0
Stackpole
Electronics Inc
R83
1
10.0k
RES, 10.0 k, 1%, 0.063 W, 0402
0402
RC0402FR-0710KL
Yageo America
R99
1
47.5k
RES, 47.5 k, 1%, 0.063 W, 0402
0402
CRCW040247K5FKED
Vishay-Dale
R100
1
30k
RES, 30 k, 5%, 0.063 W, 0402
0402
CRCW040230K0JNED
Vishay-Dale
R103
1
270
RES, 270, 5%, 0.063 W, 0402
0402
CRCW0402270RJNED
Vishay-Dale
R104
1
10k
RES, 10 k, 5%, 0.1 W, 0603
0603
RC0603JR-0710KL
Yageo America
R106
1
11.0k
RES, 11.0 k, 1%, 0.063 W, 0402
0402
CRCW040211K0FKED
Vishay-Dale
R107
1
9.53k
RES, 9.53 k, 1%, 0.063 W, 0402
0402
CRCW04029K53FKED
Vishay-Dale
R111
1
8.87k
RES, 8.87 k, 1%, 0.063 W, 0402
0402
CRCW04028K87FKED
Vishay-Dale
R112
1
3.65k
RES, 3.65 k, 1%, 0.063 W, 0402
0402
CRCW04023K65FKED
Vishay-Dale
R113
1
2.20k
RES, 2.20 k, 1%, 0.063 W, 0402
0402
CRCW04022K20FKED
Vishay-Dale
R120
1
150k
RES, 150 k, 1%, 0.063 W, 0402
0402
CRCW0402150KFKED
Vishay-Dale
R121
1
15.0k
RES, 15.0 k, 1%, 0.063 W, 0402
0402
CRCW040215K0FKED
Vishay-Dale
R123
1
39k
RES, 39 k, 5%, 0.063 W, 0402
0402
CRCW040239K0JNED
Vishay-Dale
R124
1
2.61k
RES, 2.61 k, 1%, 0.063 W, 0402
0402
CRCW04022K61FKED
Vishay-Dale
R125
1
560k
RES, 560 k, 5%, 0.063 W, 0402
0402
CRCW0402560KJNED
Vishay-Dale
R126
1
66.5k
RES, 66.5 k, 1%, 0.063 W, 0402
0402
CRCW040266K5FKED
Vishay-Dale
R127, R129
2
32.4k
RES, 32.4 k, 1%, 0.063 W, 0402
0402
CRCW040232K4FKED
Vishay-Dale
S1, S4
2
DIP Switch, SPST, 6Pos, Slide,
SMT
8.75x6.2mm
TDA06H0SB1
C&K
Components
S2, S3
2
SWITCH TACTILE SPST-NO 0.05A 3x1.6x2.5mm
12V
B3U-1000P
Omron
Electronic
Components
SH-J1, SH-J2
2
Shunt, 100mil, Gold plated, Black
SNT-100-BK-G
Samtec
18
1x2
Shunt
TPS65987-90 Evaluation Module
Alternate PartNumber
Alternate
Manufacturer
969102-0000-DA
3M
SLVUBF3A – May 2018 – Revised August 2018
Submit Documentation Feedback
Copyright © 2018, Texas Instruments Incorporated
Bill of Materials
www.ti.com
Table 8. TPS65987-90EVM Bill of Materials (continued)
Designator
Quantity
TP1, TP2, TP3,
TP4, TP5, TP6,
TP7
Value
PackageReference
PartNumber
Manufacturer
7
Test Point, Miniature, SMT
Test Point, Miniature,
SMT
5019
Keystone
U1
1
Quad High Speed USB to
Multipurpose UART/MPSSE IC
LQFP_10x10mm
FT4232HL
FTDI
U2
1
2K Microwire Compatible Serial
EEPROM, SOT-23-6
SOT-23-6
93LC56B-I/OT
Microchip
93LC56BT-I/OT
U3
1
ESD Protection Array for HighSpeed Data Interfaces, 2 Channels,
-40 to +85 degC, 3-pin SOT (DRT),
Green (RoHS & no Sb/Br)
DRT0003A
TPD2E009DRTR
Texas
Instruments
Equivalent
None
U4
1
USB Type-C and USB PD
Controller with Integrated Power
Switches, RSH0056E (VQFN-56)
RSH0056E
TPS65987DDHRSHR
Texas
Instruments
TPS65987DDHRSHT
Texas
Instruments
U5
1
8Mb, 86MHz, NOR Flash, SOP-8
8-SOP
MX25L8006EM1I-12G
Macronix
International
Co., LTD
U6
1
2.2-V to 36-V, microPower
Comparator, DBV0005A
DBV0005A
TLV1701AIDBVR
Texas
Instruments
TLV1701AIDBVT
Texas
Instruments
U8
1
22-V Precision Surge Protection
Clamp, DRV0006A (WSON-6)
DRV0006A
TVS2200DRVR
Texas
Instruments
U9
1
Hysteretic PFET Buck Controller
with Enable Pin, 8-pin MSOP, PbFree
MUA08A
LM3489QMM/NOPB
Texas
Instruments
U10
1
4.2V TO 28V INPUT, 3A OUTPUT,
SYNCHRONOUS SWIFT™ STEP
DOWN VOLTAGE CONVERTER,
DRC0010J
DRC0010J
TPS54334DRCR
Texas
Instruments
TPS54334DRCT
Texas
Instruments
U11
1
Nanopower, 1.8V, Comparator with
Voltage Reference, DCK0006A
DCK0006A
TLV3012AIDCKR
Texas
Instruments
TLV3012AIDCKT
Texas
Instruments
U12
1
Integrated USB Power Switch with
Boost Converter, DRC0010J
DRC0010J
TPS2500DRCR
Texas
Instruments
TPS2500DRCT
Texas
Instruments
Y1
1
CRYSTAL, 12MHz, 20pF, SMD
7x2.3x4.1mm
ECS-120-20-3X-TR
ECS Inc.
C34
0
0.1uF
CAP, CERM, 0.1 µF, 25 V,+/- 10%,
X7R, 0402
0402
GRM155R71E104KE14D
MuRata
D21
0
24V
Diode, TVS, Uni, 24 V, 70 Vc, SOT- SOT-23
23
PESD24VS2UT,215
Nexperia
FID1, FID2,
FID3, FID4,
FID5, FID6
0
Fiducial mark. There is nothing to
buy or mount.
Fiducial
N/A
N/A
R7, R9, R11
0
0
RES, 0, 5%, 0.063 W, 0402
0402
ERJ-2GE0R00X
Panasonic
R18, R19, R71,
R79, R80, R86
0
0
RES, 0, 5%, 0.063 W, 0402
0402
CRCW04020000Z0ED
Vishay-Dale
R25, R26
0
0
RES, 0, 5%, 0.1 W, 0603
0603
CRCW06030000Z0EA
Vishay-Dale
SLVUBF3A – May 2018 – Revised August 2018
Submit Documentation Feedback
Alternate PartNumber
Alternate
Manufacturer
Description
Texas
Instruments
TPS65987-90 Evaluation Module
Copyright © 2018, Texas Instruments Incorporated
19
Bill of Materials
www.ti.com
Table 8. TPS65987-90EVM Bill of Materials (continued)
Designator
Quantity
Value
Description
PackageReference
PartNumber
Manufacturer
R52, R98
0
0
RES, 0, 5%, 0.125 W, 0805
0805
ERJ-6GEY0R00V
Panasonic
R54, R56
0
10.0k
RES, 10.0 k, 1%, 0.1 W, 0402
0402
ERJ-2RKF1002X
Panasonic
R62
0
100k
RES, 100 k, 1%, 0.063 W, 0402
0402
CRCW0402100KFKED
Vishay-Dale
R67, R68, R75,
R76, R77, R92,
R95, R130
0
0
RES, 0, 5%, 0.063 W, 0402
0402
RC0402JR-070RL
Yageo America
R90, R91, R94,
R97
0
0
RES, 0, 5%, 0.05 W, 0201
0201
CRCW02010000Z0ED
Vishay-Dale
SH-J3, SH-J4
0
1x2
Shunt, 100mil, Gold plated, Black
Shunt
SNT-100-BK-G
Samtec
20
TPS65987-90 Evaluation Module
Alternate PartNumber
Alternate
Manufacturer
969102-0000-DA
3M
SLVUBF3A – May 2018 – Revised August 2018
Submit Documentation Feedback
Copyright © 2018, Texas Instruments Incorporated
STANDARD TERMS FOR EVALUATION MODULES
1.
Delivery: TI delivers TI evaluation boards, kits, or modules, including any accompanying demonstration software, components, and/or
documentation which may be provided together or separately (collectively, an “EVM” or “EVMs”) to the User (“User”) in accordance
with the terms set forth herein. User's acceptance of the EVM is expressly subject to the following terms.
1.1 EVMs are intended solely for product or software developers for use in a research and development setting to facilitate feasibility
evaluation, experimentation, or scientific analysis of TI semiconductors products. EVMs have no direct function and are not
finished products. EVMs shall not be directly or indirectly assembled as a part or subassembly in any finished product. For
clarification, any software or software tools provided with the EVM (“Software”) shall not be subject to the terms and conditions
set forth herein but rather shall be subject to the applicable terms that accompany such Software
1.2 EVMs are not intended for consumer or household use. EVMs may not be sold, sublicensed, leased, rented, loaned, assigned,
or otherwise distributed for commercial purposes by Users, in whole or in part, or used in any finished product or production
system.
2
Limited Warranty and Related Remedies/Disclaimers:
2.1 These terms do not apply to Software. The warranty, if any, for Software is covered in the applicable Software License
Agreement.
2.2 TI warrants that the TI EVM will conform to TI's published specifications for ninety (90) days after the date TI delivers such EVM
to User. Notwithstanding the foregoing, TI shall not be liable for a nonconforming EVM if (a) the nonconformity was caused by
neglect, misuse or mistreatment by an entity other than TI, including improper installation or testing, or for any EVMs that have
been altered or modified in any way by an entity other than TI, (b) the nonconformity resulted from User's design, specifications
or instructions for such EVMs or improper system design, or (c) User has not paid on time. Testing and other quality control
techniques are used to the extent TI deems necessary. TI does not test all parameters of each EVM.
User's claims against TI under this Section 2 are void if User fails to notify TI of any apparent defects in the EVMs within ten (10)
business days after delivery, or of any hidden defects with ten (10) business days after the defect has been detected.
2.3 TI's sole liability shall be at its option to repair or replace EVMs that fail to conform to the warranty set forth above, or credit
User's account for such EVM. TI's liability under this warranty shall be limited to EVMs that are returned during the warranty
period to the address designated by TI and that are determined by TI not to conform to such warranty. If TI elects to repair or
replace such EVM, TI shall have a reasonable time to repair such EVM or provide replacements. Repaired EVMs shall be
warranted for the remainder of the original warranty period. Replaced EVMs shall be warranted for a new full ninety (90) day
warranty period.
3
Regulatory Notices:
3.1 United States
3.1.1
Notice applicable to EVMs not FCC-Approved:
FCC NOTICE: This kit is designed to allow product developers to evaluate electronic components, circuitry, or software
associated with the kit to determine whether to incorporate such items in a finished product and software developers to write
software applications for use with the end product. This kit is not a finished product and when assembled may not be resold or
otherwise marketed unless all required FCC equipment authorizations are first obtained. Operation is subject to the condition
that this product not cause harmful interference to licensed radio stations and that this product accept harmful interference.
Unless the assembled kit is designed to operate under part 15, part 18 or part 95 of this chapter, the operator of the kit must
operate under the authority of an FCC license holder or must secure an experimental authorization under part 5 of this chapter.
3.1.2
For EVMs annotated as FCC – FEDERAL COMMUNICATIONS COMMISSION Part 15 Compliant:
CAUTION
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) This device may not
cause harmful interference, and (2) this device must accept any interference received, including interference that may cause
undesired operation.
Changes or modifications not expressly approved by the party responsible for compliance could void the user's authority to
operate the equipment.
FCC Interference Statement for Class A EVM devices
NOTE: This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to part 15 of
the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is
operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to
correct the interference at his own expense.
FCC Interference Statement for Class B EVM devices
NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of
the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential
installation. This equipment generates, uses and can radiate radio frequency energy and, if not installed and used in accordance
with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference
will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which
can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more
of the following measures:
•
•
•
•
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
3.2 Canada
3.2.1
For EVMs issued with an Industry Canada Certificate of Conformance to RSS-210 or RSS-247
Concerning EVMs Including Radio Transmitters:
This device complies with Industry Canada license-exempt RSSs. Operation is subject to the following two conditions:
(1) this device may not cause interference, and (2) this device must accept any interference, including interference that may
cause undesired operation of the device.
Concernant les EVMs avec appareils radio:
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts de licence. L'exploitation
est autorisée aux deux conditions suivantes: (1) l'appareil ne doit pas produire de brouillage, et (2) l'utilisateur de l'appareil doit
accepter tout brouillage radioélectrique subi, même si le brouillage est susceptible d'en compromettre le fonctionnement.
Concerning EVMs Including Detachable Antennas:
Under Industry Canada regulations, this radio transmitter may only operate using an antenna of a type and maximum (or lesser)
gain approved for the transmitter by Industry Canada. To reduce potential radio interference to other users, the antenna type
and its gain should be so chosen that the equivalent isotropically radiated power (e.i.r.p.) is not more than that necessary for
successful communication. This radio transmitter has been approved by Industry Canada to operate with the antenna types
listed in the user guide with the maximum permissible gain and required antenna impedance for each antenna type indicated.
Antenna types not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited
for use with this device.
Concernant les EVMs avec antennes détachables
Conformément à la réglementation d'Industrie Canada, le présent émetteur radio peut fonctionner avec une antenne d'un type et
d'un gain maximal (ou inférieur) approuvé pour l'émetteur par Industrie Canada. Dans le but de réduire les risques de brouillage
radioélectrique à l'intention des autres utilisateurs, il faut choisir le type d'antenne et son gain de sorte que la puissance isotrope
rayonnée équivalente (p.i.r.e.) ne dépasse pas l'intensité nécessaire à l'établissement d'une communication satisfaisante. Le
présent émetteur radio a été approuvé par Industrie Canada pour fonctionner avec les types d'antenne énumérés dans le
manuel d’usage et ayant un gain admissible maximal et l'impédance requise pour chaque type d'antenne. Les types d'antenne
non inclus dans cette liste, ou dont le gain est supérieur au gain maximal indiqué, sont strictement interdits pour l'exploitation de
l'émetteur
3.3 Japan
3.3.1
Notice for EVMs delivered in Japan: Please see http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_01.page 日本国内に
輸入される評価用キット、ボードについては、次のところをご覧ください。
http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_01.page
3.3.2
Notice for Users of EVMs Considered “Radio Frequency Products” in Japan: EVMs entering Japan may not be certified
by TI as conforming to Technical Regulations of Radio Law of Japan.
If User uses EVMs in Japan, not certified to Technical Regulations of Radio Law of Japan, User is required to follow the
instructions set forth by Radio Law of Japan, which includes, but is not limited to, the instructions below with respect to EVMs
(which for the avoidance of doubt are stated strictly for convenience and should be verified by User):
1.
2.
3.
Use EVMs in a shielded room or any other test facility as defined in the notification #173 issued by Ministry of Internal
Affairs and Communications on March 28, 2006, based on Sub-section 1.1 of Article 6 of the Ministry’s Rule for
Enforcement of Radio Law of Japan,
Use EVMs only after User obtains the license of Test Radio Station as provided in Radio Law of Japan with respect to
EVMs, or
Use of EVMs only after User obtains the Technical Regulations Conformity Certification as provided in Radio Law of Japan
with respect to EVMs. Also, do not transfer EVMs, unless User gives the same notice above to the transferee. Please note
that if User does not follow the instructions above, User will be subject to penalties of Radio Law of Japan.
【無線電波を送信する製品の開発キットをお使いになる際の注意事項】 開発キットの中には技術基準適合証明を受けて
いないものがあります。 技術適合証明を受けていないもののご使用に際しては、電波法遵守のため、以下のいずれかの
措置を取っていただく必要がありますのでご注意ください。
1.
2.
3.
電波法施行規則第6条第1項第1号に基づく平成18年3月28日総務省告示第173号で定められた電波暗室等の試験設備でご使用
いただく。
実験局の免許を取得後ご使用いただく。
技術基準適合証明を取得後ご使用いただく。
なお、本製品は、上記の「ご使用にあたっての注意」を譲渡先、移転先に通知しない限り、譲渡、移転できないものとします。
上記を遵守頂けない場合は、電波法の罰則が適用される可能性があることをご留意ください。 日本テキサス・イ
ンスツルメンツ株式会社
東京都新宿区西新宿6丁目24番1号
西新宿三井ビル
3.3.3
Notice for EVMs for Power Line Communication: Please see http://www.tij.co.jp/lsds/ti_ja/general/eStore/notice_02.page
電力線搬送波通信についての開発キットをお使いになる際の注意事項については、次のところをご覧ください。http:/
/www.tij.co.jp/lsds/ti_ja/general/eStore/notice_02.page
3.4 European Union
3.4.1
For EVMs subject to EU Directive 2014/30/EU (Electromagnetic Compatibility Directive):
This is a class A product intended for use in environments other than domestic environments that are connected to a
low-voltage power-supply network that supplies buildings used for domestic purposes. In a domestic environment this
product may cause radio interference in which case the user may be required to take adequate measures.
4
EVM Use Restrictions and Warnings:
4.1 EVMS ARE NOT FOR USE IN FUNCTIONAL SAFETY AND/OR SAFETY CRITICAL EVALUATIONS, INCLUDING BUT NOT
LIMITED TO EVALUATIONS OF LIFE SUPPORT APPLICATIONS.
4.2 User must read and apply the user guide and other available documentation provided by TI regarding the EVM prior to handling
or using the EVM, including without limitation any warning or restriction notices. The notices contain important safety information
related to, for example, temperatures and voltages.
4.3 Safety-Related Warnings and Restrictions:
4.3.1
User shall operate the EVM within TI’s recommended specifications and environmental considerations stated in the user
guide, other available documentation provided by TI, and any other applicable requirements and employ reasonable and
customary safeguards. Exceeding the specified performance ratings and specifications (including but not limited to input
and output voltage, current, power, and environmental ranges) for the EVM may cause personal injury or death, or
property damage. If there are questions concerning performance ratings and specifications, User should contact a TI
field representative prior to connecting interface electronics including input power and intended loads. Any loads applied
outside of the specified output range may also result in unintended and/or inaccurate operation and/or possible
permanent damage to the EVM and/or interface electronics. Please consult the EVM user guide prior to connecting any
load to the EVM output. If there is uncertainty as to the load specification, please contact a TI field representative.
During normal operation, even with the inputs and outputs kept within the specified allowable ranges, some circuit
components may have elevated case temperatures. These components include but are not limited to linear regulators,
switching transistors, pass transistors, current sense resistors, and heat sinks, which can be identified using the
information in the associated documentation. When working with the EVM, please be aware that the EVM may become
very warm.
4.3.2
EVMs are intended solely for use by technically qualified, professional electronics experts who are familiar with the
dangers and application risks associated with handling electrical mechanical components, systems, and subsystems.
User assumes all responsibility and liability for proper and safe handling and use of the EVM by User or its employees,
affiliates, contractors or designees. User assumes all responsibility and liability to ensure that any interfaces (electronic
and/or mechanical) between the EVM and any human body are designed with suitable isolation and means to safely
limit accessible leakage currents to minimize the risk of electrical shock hazard. User assumes all responsibility and
liability for any improper or unsafe handling or use of the EVM by User or its employees, affiliates, contractors or
designees.
4.4 User assumes all responsibility and liability to determine whether the EVM is subject to any applicable international, federal,
state, or local laws and regulations related to User’s handling and use of the EVM and, if applicable, User assumes all
responsibility and liability for compliance in all respects with such laws and regulations. User assumes all responsibility and
liability for proper disposal and recycling of the EVM consistent with all applicable international, federal, state, and local
requirements.
5.
Accuracy of Information: To the extent TI provides information on the availability and function of EVMs, TI attempts to be as accurate
as possible. However, TI does not warrant the accuracy of EVM descriptions, EVM availability or other information on its websites as
accurate, complete, reliable, current, or error-free.
6.
Disclaimers:
6.1 EXCEPT AS SET FORTH ABOVE, EVMS AND ANY MATERIALS PROVIDED WITH THE EVM (INCLUDING, BUT NOT
LIMITED TO, REFERENCE DESIGNS AND THE DESIGN OF THE EVM ITSELF) ARE PROVIDED "AS IS" AND "WITH ALL
FAULTS." TI DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED, REGARDING SUCH ITEMS, INCLUDING BUT
NOT LIMITED TO ANY EPIDEMIC FAILURE WARRANTY OR IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS
FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF ANY THIRD PARTY PATENTS, COPYRIGHTS, TRADE
SECRETS OR OTHER INTELLECTUAL PROPERTY RIGHTS.
6.2 EXCEPT FOR THE LIMITED RIGHT TO USE THE EVM SET FORTH HEREIN, NOTHING IN THESE TERMS SHALL BE
CONSTRUED AS GRANTING OR CONFERRING ANY RIGHTS BY LICENSE, PATENT, OR ANY OTHER INDUSTRIAL OR
INTELLECTUAL PROPERTY RIGHT OF TI, ITS SUPPLIERS/LICENSORS OR ANY OTHER THIRD PARTY, TO USE THE
EVM IN ANY FINISHED END-USER OR READY-TO-USE FINAL PRODUCT, OR FOR ANY INVENTION, DISCOVERY OR
IMPROVEMENT, REGARDLESS OF WHEN MADE, CONCEIVED OR ACQUIRED.
7.
USER'S INDEMNITY OBLIGATIONS AND REPRESENTATIONS. USER WILL DEFEND, INDEMNIFY AND HOLD TI, ITS
LICENSORS AND THEIR REPRESENTATIVES HARMLESS FROM AND AGAINST ANY AND ALL CLAIMS, DAMAGES, LOSSES,
EXPENSES, COSTS AND LIABILITIES (COLLECTIVELY, "CLAIMS") ARISING OUT OF OR IN CONNECTION WITH ANY
HANDLING OR USE OF THE EVM THAT IS NOT IN ACCORDANCE WITH THESE TERMS. THIS OBLIGATION SHALL APPLY
WHETHER CLAIMS ARISE UNDER STATUTE, REGULATION, OR THE LAW OF TORT, CONTRACT OR ANY OTHER LEGAL
THEORY, AND EVEN IF THE EVM FAILS TO PERFORM AS DESCRIBED OR EXPECTED.
8.
Limitations on Damages and Liability:
8.1 General Limitations. IN NO EVENT SHALL TI BE LIABLE FOR ANY SPECIAL, COLLATERAL, INDIRECT, PUNITIVE,
INCIDENTAL, CONSEQUENTIAL, OR EXEMPLARY DAMAGES IN CONNECTION WITH OR ARISING OUT OF THESE
TERMS OR THE USE OF THE EVMS , REGARDLESS OF WHETHER TI HAS BEEN ADVISED OF THE POSSIBILITY OF
SUCH DAMAGES. EXCLUDED DAMAGES INCLUDE, BUT ARE NOT LIMITED TO, COST OF REMOVAL OR
REINSTALLATION, ANCILLARY COSTS TO THE PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES, RETESTING,
OUTSIDE COMPUTER TIME, LABOR COSTS, LOSS OF GOODWILL, LOSS OF PROFITS, LOSS OF SAVINGS, LOSS OF
USE, LOSS OF DATA, OR BUSINESS INTERRUPTION. NO CLAIM, SUIT OR ACTION SHALL BE BROUGHT AGAINST TI
MORE THAN TWELVE (12) MONTHS AFTER THE EVENT THAT GAVE RISE TO THE CAUSE OF ACTION HAS
OCCURRED.
8.2 Specific Limitations. IN NO EVENT SHALL TI'S AGGREGATE LIABILITY FROM ANY USE OF AN EVM PROVIDED
HEREUNDER, INCLUDING FROM ANY WARRANTY, INDEMITY OR OTHER OBLIGATION ARISING OUT OF OR IN
CONNECTION WITH THESE TERMS, , EXCEED THE TOTAL AMOUNT PAID TO TI BY USER FOR THE PARTICULAR
EVM(S) AT ISSUE DURING THE PRIOR TWELVE (12) MONTHS WITH RESPECT TO WHICH LOSSES OR DAMAGES ARE
CLAIMED. THE EXISTENCE OF MORE THAN ONE CLAIM SHALL NOT ENLARGE OR EXTEND THIS LIMIT.
9.
Return Policy. Except as otherwise provided, TI does not offer any refunds, returns, or exchanges. Furthermore, no return of EVM(s)
will be accepted if the package has been opened and no return of the EVM(s) will be accepted if they are damaged or otherwise not in
a resalable condition. If User feels it has been incorrectly charged for the EVM(s) it ordered or that delivery violates the applicable
order, User should contact TI. All refunds will be made in full within thirty (30) working days from the return of the components(s),
excluding any postage or packaging costs.
10. Governing Law: These terms and conditions shall be governed by and interpreted in accordance with the laws of the State of Texas,
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Copyright © 2018, Texas Instruments Incorporated
IMPORTANT NOTICE FOR TI DESIGN INFORMATION AND RESOURCES
Texas Instruments Incorporated (‘TI”) technical, application or other design advice, services or information, including, but not limited to,
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