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LAUNCHXL-F28379D Overview
User's GuideSPRUI77B–August 2016–Revised June 2018
LAUNCHXL-F28379D Overview
The C2000™ LAUNCHXL-F28379D LaunchPad™ is a complete low-cost development board for theTexas Instruments Delfino™ F2837xD devices. The LAUNCHXL-F28379D kit features all the hardwareand software necessary to develop applications based on the F2837xD microcontrollers. This LaunchPadis based on the superset F28379D device, and easily allows users to migrate to lower feature set and/orlower pin count F2837x devices once the design needs are known. It offers an on-board JTAG debug toolallowing direct interface to a PC for easy programming, debugging, and evaluation. In addition to JTAGemulation, the USB interface provides a UART serial connection from the F28379D device to the host PC.
Contents1 Introduction ................................................................................................................... 22 Kit Contents................................................................................................................... 33 Installation .................................................................................................................... 44 Getting Started With the LAUNCHXL-F28379D ......................................................................... 55 Hardware Configuration..................................................................................................... 56 LAUNCHXL-F28379D Hardware .......................................................................................... 87 References .................................................................................................................. 268 Frequently Asked Questions (FAQ)...................................................................................... 27
List of Figures
1 LAUNCHXL-F28379D Board Overview................................................................................... 32 P01_Block Diagram........................................................................................................ 103 P02_XDS100v2............................................................................................................. 114 P03_Power.................................................................................................................. 125 P04_ADCIND ............................................................................................................... 136 P05_PWM-DAC ............................................................................................................ 137 P06_BoosterPack Headers ............................................................................................... 148 P07_F28379D-PWR ....................................................................................................... 149 P08_F28379D-IO1 ......................................................................................................... 1510 P09_F28379_IO2 .......................................................................................................... 1611 P10_EX-Headers........................................................................................................... 1712 Top ........................................................................................................................... 1813 GND.......................................................................................................................... 1814 Route1 ....................................................................................................................... 1815 Route2 ....................................................................................................................... 1816 VDD .......................................................................................................................... 1817 Bottom ....................................................................................................................... 1818 Top Silkscreen Overlay.................................................................................................... 1819 Bottom Silkscreen Overlay................................................................................................ 1820 Top Pad Master ............................................................................................................ 1921 Bottom Pad Master......................................................................................................... 19
List of Tables
1 Supplying the LaunchPad With 3.3 V ..................................................................................... 6
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2 Supplying the LaunchPad With 5 V ....................................................................................... 63 Positions of Signals Present on Switch S1............................................................................... 74 Revision 2.0: Resistor Selection for Routing Dual-Mapped Signals .................................................. 75 F28379D LaunchPad Pin Out and Pin Mux Options - J1, J3 .......................................................... 86 F28379D LaunchPad Pin Out and Pin Mux Options - J4, J2 .......................................................... 87 F28379D LaunchPad Pin Out and Pin Mux Options - J5, J7 .......................................................... 98 F28379D LaunchPad Pin Out and Pin Mux Options - J8, J6 .......................................................... 99 LAUNCHXL-F28379D Bill of Materials .................................................................................. 20
TrademarksC2000, LaunchPad, Delfino, Code Composer Studio are trademarks of Texas Instruments.Windows is a registered trademark of Microsoft Corporation in the United States and/or other countries.All other trademarks are the property of their respective owners.
1 IntroductionUsers can download an unrestricted copy of the latest version of Code Composer Studio™ IDE to write,download, and debug applications on the LAUNCHXL-F28379D board. The debugger is unobtrusive,allowing the user to run an application at full speed with hardware breakpoints and available single stepexecution while consuming no extra hardware resources.
As shown in Figure 1, the LAUNCHXL-F28379D LaunchPad features include:• USB debugging and programming interface via a high-speed galvanically isolated XDS100v2 debug
probe featuring a USB/UART connection• Superset TMS320F28379D device• Two user LEDs• Device reset pushbutton• Easily accessible device pins for debugging purposes or as sockets for adding customized extension
boards• Dual 5 V quadrature encoder interfaces• CAN Interface with integrated transceiver• Boot selection switches• Differential Amplifier to provide buffered signals to ADCD for 16-bit mode• Optional SMA connection points P/N:SMA-J-P-H-ST-EM1• Four Sigma Delta demodulator inputs brought to the BP headers
{
{
{{
XDS100v2 On-Board Debug Probe
Enables JTAG debugging/programming as well as provides serial
communication back to the PC. The XDS100can also provide power to the target MCU.
40-pin BoosterPack Connectors(J1, J2, J3, and J4)
ADC-D Differential Pair Inputs(J21)
Optional SMA Jacks(J19 and J20)
Power Jumpers(JP4 and JP5)
High-density EMIF Connector(Bottom)(J9)
On-Board 5V Enable Jumper(JP3)
CAN Interface w/ Transceiver(J12)
Dual 5V Quadrature Interfaces(J14 and J15)
40-pin BoosterPack Connectors(J5, J6, J7, and J8)
TMS320F28379DMicrocontroller(U1)
Reset(S3)
Boot Configuration Switches(S1)
Power & User LEDs(D1, D9, and D10)
Electrically Isolated PC InterfaceWhen power to the F28379D device is supplied externally through the BoosterPack headers, JP1, JP2, and JP3 may be removed to enable electrical
isolation of the board from the PC.
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LAUNCHXL-F28379D Overview
Figure 1. LAUNCHXL-F28379D Board Overview
2 Kit ContentsThe LAUNCHXL-F28379D LaunchPad kit includes the following items:• C2000 Delfino LaunchPad Board (LAUNCHXL-F28379D)• Mini USB-B Cable, 0.5m• Quick Start Guide
2.1 RevisionsThe first production revision of the LAUNCHXL-F28379D in 2016 was Revision 1.1. In late 2017 theLAUNCHXL-F28379D revision changed from 1.1 to 2.0 to fix various issues and make improvements tothe design.
Revision 1.1:• ADCINA2 is shorted to VREFHIB. It is recommended that users avoid using the ADCINA2 channel.• The VIN+ signal of component U1 may be shorted to ADCINB4 and/or ADCINC4 due to variance in
manufacturing tolerances. No issues have been reported, but the clearances violate manufacturingrules and a short may occur.
• The silkscreen for the ADC channels on J3 and J7 are mixed up and some may be incorrect.Reference the schematic for the proper pin positions.
• J3 and J7 connectors are labeled incorrectly on the backside silkscreen. Refer the the Rev 1.1schematic for the proper signal locations on the connector
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Revision 2.0:A revision was made to resolve the layout issues present on revisions 1.1. In addition to the fixes foraforementioned issues, additional changes were made to the schematic and layout to improve availablefeatures and increase usability.• User LEDs and current limiting resistor values were changed to prevent the LEDs from being too bright
to look at directly.• The CAN signal header J12 was shifted towards the center of the board and the silkscreen properly
aligned. PGND was removed and replaced with GND for the proper grounding of the CAN signals.• J11 and J13 were removed and replaced with a 0Ω resistor selection tree for routing between the
BoosterPack headers and the backside high-density connector J9. For more information on how toconfigure these resistors for the desired routing, see Section 5.5.
• Additional EMIF1 signals were routed to J9 to enable SDRAM support. These signals are also routedto the BoosterPack headers. As such, these signals have a resistor selection network for routing thesignals to either the BoosterPack headers, J9 or both. For the information on how to configure theseresistors for the desired routing, see Section 5.5.
• An additional jumper, J16, was added to the lower left corner of the board for an additional connectionpoint for supplying +5 V externally.
• ADC input signal conditioning circuit was updated for proper operation under additional operatingconditions. C4 is now 180 pF; R60/R61 are changed to 10k-Ω and are placed between the VOUTsignal of U13 to the VOCM of U1.
• Backside silkscreen for J3 and J7 have been corrected and reflect the proper signals at the notedlocation on the connector.
3 InstallationThe F28379D LaunchPad is supported in Code Composer Studio.
3.1 Code Composer Studio
3.1.1 Download the Required SoftwareCode Composer Studio IDE is available for free without any restriction when used with the XDS100v2debug probe on the C2000 LaunchPad. The software can be downloaded from the C2000 LaunchPadpage at ti.com/launchpad. At this site, you can also download a copy of c2000Ware that includes drivers,examples, and other support software needed to get started.
3.1.2 Install the SoftwareOnce downloaded, install Code Composer Studio and the C2000Ware package.
3.1.3 Install the HardwareAfter Code Composer Studio is installed, plug the supplied USB cable into the C2000 LaunchPad boardand into an available USB port on your computer.
Windows® will automatically detect the hardware and ask you to install software drivers. Let Windows runa search for the drivers and automatically install them. After Windows successfully installs the drivers forthe integrated XDS100v2 debug probe, your LaunchPad is now ready for use.
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4 Getting Started With the LAUNCHXL-F28379D
4.1 Getting StartedThe first time the LAUNCHXL-F28379D board is powered-on a demo application will automatically start.Connect the LAUNCHXL-F28379D to a free USB port using the included mini-USB cable. The demoapplication will start with LEDs D9 and D10 blinking to show the device is active. If your board does notstart the demo application, try setting switch S1 in the following positions and resetting the board: 1-UP, 2-UP, 3-DOWN.
4.2 Demo Application, ADC SamplingThe LAUNCHXL-F28379D includes a pre-programmed TMS320F28379D device. When the LaunchPad ispowered via USB, the demo starts with an LED blink sequence. After a few seconds the device switchesinto an ADC sample mode.
Every 1 second the ADC samples pin ADCIN14 and the sampled data is represented as follows: If thesample is above mid-scale (2048), the blue LED D10 will illuminate. If the sample is below mid-scale, thered LED D9 will illuminate.
In addition to the LED indicators, ADC sample information is also displayed on your PC through theUSB/UART connection. To view the UART information on your PC, first determine the COM portassociated with the LaunchPad. To do this in Windows, right click on My Computer and click onProperties. In the dialog box that appears, click on the Hardware tab and open Device Manager. Look foran entry under Ports (COM & LPT) titled "USB Serial Port (COMX)", where X is a number. Remember thisnumber for when you open a serial terminal. The demo applications UART data was written and debuggedusing PuTTY, and for the best user experience we recommend you use PuTTY to view the UART data.PuTTY can be downloaded from the following URL:
http://www.chiark.greenend.org.uk/~sgtatham/putty/download.html
Open your serial terminal program and open the COM port you found previously in device manager withthe following settings: 115200 Baud, 8 data bits, no parity, 1 stop bit. After opening the serial port in yourserial terminal, reset the LaunchPad with the reset push button S3 and observe the serial terminal to seethe TI logo in ASCII art.
4.3 Program and Debug the ADC Sample Demo ApplicationThe project and associated source code for the C2000 Delfino LaunchPad demo is included in theC2000Ware software package and should automatically be found by the TI Resource Explorer in CodeComposer Studio. In the resource explorer, navigate C2000Ware to find thedevice_support\f2837xd\examples folder. Expand this item and LAUNCHXL-F28379D, then select theLaunchPad Demo Application. Follow the steps in the main pane of the resource explorer to import, build,debug, and run this application.
5 Hardware ConfigurationThe F28379D LaunchPad provides users with several options for configuring the board.
5.1 ADC ResolutionThe F28379D had 4 independent 16-bit/12-bit ADCs. The resolution of each ADC is SW selectable.ADCA, ADCB, and ADCC are all routed to the BoosterPack headers for use with different booster packs.Most BoosterPacks will use the ADC in 12-bit mode which supports Single Ended (SE) inputs. ADCD hasbeen routed to a special side connector with ability to drive through a differential amplifier to support 16-bitmode with Differential Ended (DE) inputs.
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5.2 Power DomainThe LaunchPad has several different power domains to enable JTAG Isolation. Jumpers JP1, JP2, JP3control JTAG Isolation, supply GND, 3.3 V and 5 V to the rest of the board. There are also other jumpersthat provide different methods for powering the device.
Table 1 describes the different methods by which 3.3 V can be supplied to the device. It can be derivedfrom USB in configuration 1. Here, the on-board regulator steps the 5 V from the USB port down to 3.3 Vto be used by the XDS100v2 debug probe as well as connected to the device side of the LaunchPadthrough JP1. Configuration 1 is a non-isolated configuration. Alternately, in configuration 2 the debuggerand USB connection are isolated from the device. The 3.3 V source must be provided externally throughthe BoosterPack headers or through J10.
Table 1. Supplying the LaunchPad With 3.3 V
Configuration JP1 JP2 USB External 3.3 V JTAG/USBIsolation Status
1 Yes Yes Yes No Not Isolated2 No No Don't Care Yes Isolated
The LaunchPad also has a 5 V power rail. It can be supplied directly from the USB (not isolated)generated from a 3.3 V to 5 V step-up regulator through JP6, or supplied externally through theBoosterPack Headers or J16. Table 2 describes these various configurations.
The debug probe and USB are not isolated in configuration 1 since JP2 and JP3 are connected. The 5 Vsupply is coming from the USB directly to the device side of the LaunchPad and can be used to powerother devices connected to the BoosterPack headers. In this configuration, do not connect JP6 as theremay be contention between the 5 V from the USB (JP3) and the 5 V from the on-board step-up regulator,U12.
Configuration 2 is an isolated configuration where 3.3 V is supplied any way other than through JP1. Inthis configuration, JP6 is connected allowing the 3.3 V to be stepped up to 5 V with the on-board step-upregulator, U12. In this configuration ensure that no other 5 V source is connected to the BoosterPackheaders or through J16.
Configuration 3 is another isolated configuration since JP2 and JP3 are not connected. With JP6disconnected, 5 V must be supplied through an external connection on the BoosterPack headers or J16.Notice that this configuration does not rely on the 3.3 V supply being powered to provide the 5 V. Tosupply 3.3 V to the device in an isolated configuration, see Table 1.
Table 2. Supplying the LaunchPad With 5 V
Configuration JP2 JP3 JP6 External 5 V USB JTAG/USBIsolation Status
1 Yes Yes No No Yes Not Isolated2 No No Yes No Don't Care Isolated3 No No No Yes Don't Care Isolated
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5.3 Boot Mode SelectionThe LaunchPad's F28379D device includes a boot ROM that performs some basic start-up checks andallows for the device to boot in many different ways. Most users will either want to perform an emulationboot or a boot to flash (if they are running the application standalone). Switch S1 has been provided toallow users to easily configure the pins that the bootROM checks to make this decision. The positions onS1 correspond to those shown in Table 3.
Table 3. Positions of Signals Present on Switch S1
Positions Function1 GPIO842 GPIO723 TRSTn
Keep in mind that the debug probe does not connect if the device is not in the emulation boot mode(TRST switch in the UP-1 position). More information about boot mode selection can be found in the BootROM section of the TMS320F2837xD Dual-Core Delfino Microcontrollers Technical Reference Manual.
5.4 Connecting a BoosterPackThe F2837xD LaunchPad is the perfect experimenter board to start hardware development with theF2837xD devices. All of the connectors are aligned in a 0.1-in (2.54-mm) grid to allow easy andinexpensive development of add on boards called BoosterPacks. These satellite boards can access all ofthe GPIO and analog signals. The pinout of the connectors can be found in Section 5.
5.5 GPIO Routing Between BoosterPack and I/O Expansion HeadersThis LaunchPad has a high-density connector (J9) on the backside of the board. This connector providesfor an IO expansion board to be connected. Many of the EMIF1 signals are available as well as SPI andI2C. Some of the signals present on J9 are also available on the BoosterPack expansion headers.
On Revision 1.x LaunchPads, only two signals were dual-mapped to both J9 and the BoosterPackHeaders, GPIO40 and GPIO41. To select the destination, the three-position jumpers, J11 and J13, couldbe adjusted accordingly. Placing the jumper between position 1 and position 2 will route the signal to J9.Placing the jumper between position 2 and position 3 will route the signal to the BoosterPack headers.
On revision 2.0 LaunchPads, in addition to GPIO40 and GPIO41, four more signals may be routed toeither the BoosterPack headers or J9 independently, or may be connected to both based on theplacement of 0Ω resistors. By default, the signals are only routed to the BoosterPack headers foralignment with the BoosterPack standards. Table 4 provides the mapping for each signal and whichresistors populate in order to route the signal as desired. Refer to the schematic at the end of thisdocument in Section 6.2,or located in the C2000Ware directory.
Table 4. Revision 2.0: Resistor Selection for Routing Dual-Mapped Signals
GPIO Route to BoosterPack Headers Route to J9 HeaderGPIO29 R75 R76GPIO40 R67 R68GPIO41 R69 R70GPIO52 R77 R78GPIO104 R71 R72GPIO105 R73 R74
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6 LAUNCHXL-F28379D Hardware
6.1 Device Pin OutTable 5 through Table 8 lists the pin out and pin mux options for the C2000 LaunchPad. Additional muxingoptions are available and can be found in the TMS320F2837xD Dual-Core Delfino™ Microcontrollers DataManual.
(1) For full pin muxing table for functions shown here and additional mux options, see the TMS320F2837xD Dual-Core Delfino™Microcontrollers Data Manual.
(2) This signal is also routed to the IO expansion header, J9. For information on how to configure this signal, see Section 5.5.
Table 5. F28379D LaunchPad Pin Out and Pin Mux Options - J1, J3Mux Value J1
PinJ3Pin
Mux Value
X 2 1 0 0 Alt Function 2 X
3.3V 1 21 5V
GPIO32 2 22 GND
SCIRXDB GPIO19 3 23 ADCIN14 CMPIN4P
SCITXDB GPIO18 4 24 ADCINC3 CMPIN6N
GPIO67 5 25 ADCINB3 CMPIN3N
GPIO111 6 26 ADCINA3 CMPIN1N
SPICLKA (1) GPIO60 7 27 ADCINC2 CMPIN6P
GPIO22 8 28 ADCINB2 CMPIN3P
SCLA GPIO105 (2) 9 29 ADCINA2 CMPIN1P
SDAA GPIO104 (2) 10 30 ADCINA0 DACOUTA
(1) For full pin muxing table for functions shown here and additional mux options, see the TMS320F2837xD Dual-Core Delfino™Microcontrollers Data Manual.
(2) This signal is also routed to the IO expansion header, J9. For information on how to configure this signal, see Section 5.5.
Table 6. F28379D LaunchPad Pin Out and Pin Mux Options - J4, J2Mux Value J4
PinJ2Pin
Mux Value
X 2 1 0 0 1 2 X
EPWM1A GPIO0 40 20 GND
EPWM1B GPIO1 39 19 GPIO61
EPWM2A GPIO2 38 18 GPIO123 SD1_C1 (1)
EPWM2B GPIO3 37 17 GPIO122 SD1_D1 (1)
EPWM3A GPIO4 36 16 RST
EPWM3B GPIO5 35 15 GPIO58 SPISIMOA (1)
OUTPUTXBAR1 GPIO24 34 14 GPIO59 SPISOMIA (1)
OUTPUTXBAR7 (1) GPIO16 33 13 GPIO124 SD1_D2 (1)
DAC1 32 12 GPIO125 SD1_C2 (1)
DAC2 31 11 GPIO29 (2) OUTPUTXBAR6 (1)
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(1) For full pin muxing table for functions shown here and additional mux options, see the TMS320F2837xD Dual-Core Delfino™Microcontrollers Data Manual.
(2) This signal is also routed to the IO expansion header, J9. For information on how to configure this signal, see Section 5.5.
Table 7. F28379D LaunchPad Pin Out and Pin Mux Options - J5, J7Mux Value J5
PinJ7Pin
Mux Value
X 2 1 0 0 Alt Function 2 X
3.3V 41 61 5V
GPIO95 42 62 GND
SCIRXDC (1) GPIO139 43 63 ADCIN15 CMPIN4N
SCITXDC (1) GPIO56 44 64 ADCINC5 CMPIN5N
GPIO97 45 65 ADCINB5
GPIO94 46 66 ADCINA5 CMPIN2N
SPICLKB (1) GPIO65 47 67 ADCINC4 CMPIN5P
GPIO52 (2) 48 68 ADCINB4
SCLB (1) GPIO41 (2) 49 69 ADCINA4 CMPIN2P
SDAB (1) GPIO40 (2) 50 70 ADCINA1 DACOUTB
(1) For full pin muxing table for functions shown here and additional mux options, see the TMS320F2837xD Dual-Core Delfino™Microcontrollers Data Manual.
Table 8. F28379D LaunchPad Pin Out and Pin Mux Options - J8, J6Mux Value J8
PinJ6Pin
Mux Value
X 2 1 0 0 1 2 X
EPWM4A GPIO6 80 60 GND
EPWM4B GPIO7 79 59 GPIO66
EPWM5A GPIO8 78 58 GPIO131 SD2_C1 (1)
EPWM5B GPIO9 77 57 GPIO130 SD2_D1 (1)
EPWM6A GPIO10 76 56 RST
EPWM6B GPIO11 75 55 GPIO63 SPISIMOB (1)
OUTPUTXBAR3 (1) GPIO14 74 54 GPIO64 SPISOMIB (1)
OUTPUTXBAR4 (1) GPIO15 73 53 GPIO26 SD2_D2 (1)
DAC3 72 52 GPIO27 SD2_C2 (1)
DAC4 71 51 GPIO25 OUTPUTXBAR2 (1)
Power management
Micro USB type B
FT2232H
TMS320F28379D-NFBGA
BoosterPack 1 Connector
LEDSCAN
SERIAL 1&2
Sheet 2
Sheet 3
Sheet 7
Sheet 2
BoosterPack 2 Connector
QEP Connector
Note: NI = Not Install
Sheet 10
Sheet 6
Sheet 6
Sheet 10Sheet 5
REV DATA NOTE
REV1.020151210
ORIGINAL RELEASED
DF40C-60DP-0.4V
Sheet 7
REV1.1 20160415
-Changed value for R11/R52 from 560m to 100m-Swap pin connection for J3&J7-Replace U19&U11 with OPA350-Changed value for R38/R39 from 330R to 820R
REV2.0 20170426
-Add 5V connector J16
-Changed R1/R26/R27/R38/R39/R46 from 820R to 680R
-Replace D1/D4 with 150080VS75000-Replace D7/D10 with 150080BS75000-Replace D8/D9 with 150080SS75000
-Changed C40 from 1nF to 180pF
-Changed "PGND" to "GND" in CAN connector J12-Changed GPIO29/40/41/52/104/105 route in page 9-Connect U13.6 to U1.2-Changed R60/R61 from 4K02 to 10K-Add R79 connect U2.8 to GND-Add C84/C85-Changed C23/C38 from 2.2uf to 22uf
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6.2 SchematicsThe following figures show the LAUNCHXL-F28379D Rev 2.0 schematic. The schematics for bothLAUNCHXL-F28379D Revision 2.0 and Revision 1.1 are located in C2000Ware.
Figure 2. P01_Block Diagram
Mini USB
2K21%
R31
100nFC16
93LC56BT-I/OT
62
CLK4
DO1
DI3
CS5
U8
FT2232HQ-REEL
VREGIN50
USBDM7
USBDP8
REF6
RESET#14
OSCI2
OSCO3
EECS63
EECLK62
EEDATA61
TEST13
AG
ND
10
GN
D1
1
GN
D2
5
GN
D3
11
GN
D4
15
PWREN#60
SUSPEND#36
BCBUS354
BCBUS253
BCBUS152
BCBUS048
BDBUS746
BDBUS645
BDBUS544
BDBUS443
BDBUS341
BDBUS240
BDBUS139
BDBUS038
ACBUS329
ACBUS228
ACBUS127
ACBUS026
ADBUS724
ADBUS623
ADBUS522
ADBUS421
ADBUS319
ADBUS218
ADBUS117
ADBUS016
VC
CIO
12
0
VC
OR
E2
37
VC
OR
E1
12
VP
HY
4
ACBUS430
ACBUS532
ACBUS633
ACBUS734
BCBUS455
BCBUS557
BCBUS658
BCBUS759
GN
D5
25
GN
D6
35
GN
D7
47
GN
D8
51
VREGOUT49
VP
LL
9
VC
OR
E3
64
VC
CIO
23
1
VC
CIO
34
2
VC
CIO
45
6
TH
65
U6
100nFC14
100nFC13
100nFC12
12K1%
R24
1K1%
R22
ISO7231CDWR
VCC11
VCC216
GND12
GND18
GND215
GND29
INA3
INB4
OUTC5
NC16
EN17
EN210
OUTA14
OUTB13
INC12
NC211
U7
ISO7240CDWR
VCC11
VCC216
GND12
GND18
GND215
GND29
INA3
INB4
INC5
IND6
NC7
EN10
OUTA14
OUTB13
OUTC12
OUTD11
U5
1K1%
R23
BLUE
D7
RED
D8
680R1%
R26
680R1%
R27
12MHZ
Q3
36pF5%
C1736pF5%
C18
0R5%NI
R21
0R 5%NI R200R 5%NI R190R 5%NI R18
0R 5%NI R16
0R 5%NI R280R 5%NI R300R 5%NI R32
0R5%NI
R25
2.54mm 1x2
1 2JP1
2.54mm 1x2
1 2JP2
4.7uFC10 4.7uFC11
600R300mA
L2
600R300mA
L1
0R 5%R150R 5%R33
TP11
TP12
TP13
TP14 TP15 TP16 TP17
100nFC43
GREEND4
680R1%
R46
TP30
TPS62162DSGT
EN3
EX
_P
AD
9
FB5
GND4
PG8
PGND1
SW7
VIN2
VOS6
U17
100K 1%
R47
2.2uHL7
10K1%
R12
2.54mm 1x2
1 2JP3
1
2
3
4
5
CON1
AGND
AGND
AGND
AGND
AGND GND
GND
AGND
+3V3
+3V3
AGND
AGND AGND
AGNDAGND
AGNDAGNDAGND
AGND
+5V
AGNDAGNDAGNDAGND
+3V3
D-
D-
D+
D+
XUSB
TCK
TDI
TDO
TMS
FTDI_CS
FTDI_CS
FTDI_CLK
FTDI_CLK
FTDI_DATA
FTDI_DATA
PWREN#
SUSPEND#
JTAG_TRST
GPIO42/SCIATX(<-MCU)
GPIO43/SCIARX(->MCU)
USBVCCFTDI_3V3
USBVCC
USBVCC
FTDI_3V3
FTDI_3V3
FTDI_3V3
FTDI_3V3
FTDI_3V3
FTDI_3V3
FTDI_1V8
FTDI_1V8
AGND
10uFC44
22uFC45
3.3uFC15
500mA
F1
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11SPRUI77B–August 2016–Revised June 2018Submit Documentation Feedback
Copyright © 2016–2018, Texas Instruments Incorporated
LAUNCHXL-F28379D Overview
Figure 3. P02_XDS100v2
2.2uFC42
2.2uFC46
2.2uFC47
2.2uFC48
2.2uFC49
2.2uFC75
2.2uFC76
2.2uFC77
2.2uFC7810uF
C79
178K1%
R53
64.9K1%
R5439K21%
R55
220RL11
10uFC81
100nF
C56
100nF
C57
100nF
C58
100nF
C59
100nF
C60
100nF
C61
100nF
C62
100nF
C63
100nF
C64
100nF
C65
100nF
C66
100nF
C67
220RL5
10uF
C68
10uF
C69
60RL3
2.2uF
C27
2.2uF
C29
100nF
C28
100nF
C30
60RL4
2.2uF
C71
2.2uF
C72
100nF
C73
100nF
C74
100nF
C1
2.2uF
C2
100nFC5
1K1%
R3
1uFC6
1uFC7
100nFC9
1uFC19 0.1R
1%
R11
0.1R1%
R52
820pFC25
LMR62421XMFE/NOPB
FB3
GN
D2
SD4
SWITCH1
VIN5
U12
10K1%
R14
3.3uHL6
10uFC41
30K11%
R17
10K1%
R45
4.7uFC8
1uFC22
2.54mm 1x2
1 2JP6 OPA350EA/250
+IN3
-IN2
NC11
NC25
NC38
OUT6
V+7
V-4
U11
OPA350EA/250
+IN3
-IN2
NC11
NC25
NC38
OUT6
V+7
V-4
U19
REF5030IDGKT
DNC11
DNC28
GND4
NC7
TEMP3
TRIM/NR5
VIN2
VOUT6
U13
10uF
C70
GND
+3V3
GND GND GND
GND
+3V3
GND
+3V3
GND GND
+3V3
GND GND
GND
GND
GND GND
GND
GND
GND
GND
+3V3
GNDGND
+5V
GND
+5V
+5V
GND
GND
+5V
+3V3
VREFHIA
VREFHIB
VDDIO
VDDOSC VDDA
VDD+1V2
GND
22uFC80
1uHL8
1N5819HW-7-F
D3
VREF
TPS62080ADSGT
EN1
FB4
GND2
MODE3
PG6
SW7
VIN8
VOS5
PA
D9
U4
22uFC23
22uFC38
Copyright © 2017, Texas Instruments Incorporated
LAUNCHXL-F28379D Hardware www.ti.com
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LAUNCHXL-F28379D Overview
Figure 4. P03_Power
PWM_DAC
REDD9
BLUED10
SN74LVC2G07DBVR
1A1
2A3
2Y4
1Y6
VC
C5
GN
D2
U9
680R1%
R38680R1%
R39
1K 1%R36
1K 1%R37
1K 1%R40
1K 1%R41
100nFC33
100nFC34
100nFC35
100nFC36
100nFC24
+3V3 +3V3 +3V3
GNDGND GND GND GND
GND
GPIO34
PWM/BASED/DAC1
PWM/BASED/DAC2
PWM/BASED/DAC3
PWM/BASED/DAC4
GPIO157
GPIO158
GPIO31
GPIO159
GPIO160
Copyright © 2017, Texas Instruments Incorporated
TP21TP22
TP23TP24
2K1%
R56 2K1%
R57 12R5%
R58
49R91%
R59
49R91%
R62
2K1%
R63 2K1%
R64 12R5%
R65
THS4531IDGKR
PD
7
VIN
+8
VIN
-1
VO
CM
2
VO
UT
+4
VO
UT
-5
VS
+3
VS
-6
U1
GND
GND GND
GND
+3V3
GND
GND
+3V3
GNDGND
GND
ADCIND5
ADCIND4
ADCIND0
ADCIND1
ADCIND2
ADCIND3
180pFC40
220nFC83
100pFC20
100pFC82
1uFC21
2.54mm 2x4
1 23 45 67 8
J21
VREF
SMA-J-P-H-ST-EM1NIJ19
SMA-J-P-H-ST-EM1NIJ20
10K1%
R60
10K1%
R61
VOCM
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LAUNCHXL-F28379D Overview
Figure 5. P04_ADCIND
Figure 6. P05_PWM-DAC
RESET GPIO72 GPIO84TRST
10 00
000
x x
011
1
10
Emulation BootParallel I/OSCIWaitGetMode
BOOT
10MHZ
Q1
36pF5%
C4
36pF5%
C3
1M1%
R7
2K21%
R6
GREEND1
680R1%
R1
TP1
100nFC39
B3F-3152
1 2
S3
2K21%
R82K21%
R9219-3MST
4
5
6 1
2
3
S1
2K21%
R10
GND
GND
+3V3
GND
GND
+3V3
GND
+3V3
GND
+3V3+3V3
GNDGNDGND
GND
GND
VREFHIB
VREFHIA
RESET#
RESET#
X1
X1
X2
X2
TCK
TDI
TDO
TMS
TRST
TRST
NC
FLT2
FLT1
ERRORSTS
JTAG_TRST
GPIO72
GPIO84
TMS320F28379DZWTT
ERRORSTSU19
FLT1W12
FLT2V13
NCH4
VDDIO25B1
VDDIO26F13
VDDIO27F16
VDDIO28L14
VDDOSC1H16
VDDOSC2H17
VSS1A1
VSS2A10
VSS3A19
VSS4E5
VSS5E6
VSS6E8
VSS7E12
VSS8E14
VSS9E15
VSS10F5
VSS11F6
VSS12F8
VSS13F12
VSS14F14
VSS15F15
VSS16G16
VSS17G17
VSS18H8
VSS19H9
VSS20H10
VSS21H11
VSS22H12
VSS23H14
VSS24H15
VSS25J5
VSS26J6
VSS27J8
VSS28J9
VSS29J10
VSS30J11
VSS31J12
VSS32K8
VSS33K9
VSS34K10
VSS35K11
VSS36K12
VSS37K14
VSS38K15
VSS39L5
VSS40L6
VSS41L8
VSS42L9
VSS43L10
VSS44L11
VSS45L12
VSS46L18
VSS47M8
VSS48M9
VSS49M10
VSS50M11
VSS51M12
VSS52M14
VSS53M15
VSS54N1
VSS55N5
VSS56N6
VSS57P8
VSS58P11
VSS59P12
VSS60P14
VSS61P15
VSS62R7
VSS63R8
VSS64R14
VSS65R15
VSS66W1
VSS67W7
VSS68W19
VSSA1P1
VSSA2P5
VSSA3R5
VSSA4V7
VSSA5P7
VSSOSC1H18
VSSOSC2H19
U14A
TMS320F28379DZWTT
TCKV15
TDIW13
TDOW15
TMSW14
TRSTV14
VDD1E9
VDD2F9
VDD3K5
VDD3VFL1R11
VDD3VFL2R12
VDD4E11
VDD5F11
VDD6G14
VDD7G15
VDD8J14
VDD9J15
VDD10K6
VDD11R10
VDD12R13
VDD13P10
VDD14P13
VDDA1R6
VDDA2P6
VDDIO1A9
VDDIO2A18
VDDIO3E7
VDDIO4E10
VDDIO5E13
VDDIO6E16
VDDIO7F4
VDDIO8F7
VDDIO9F10
VDDIO10G4
VDDIO11G5
VDDIO12G6
VDDIO13H5
VDDIO14H6
VDDIO15L15
VDDIO16M1
VDDIO17M5
VDDIO18M6
VDDIO19N14
VDDIO20N15
VDDIO21P9
VDDIO22R9
VDDIO23V19
VDDIO24W8
VREFHIAV1
VREFHIBW5
VREFHICR1
VREFHIDV5
VREFLOAR2
VREFLOBV6
VREFLOCP2
VREFLODW6
VREGENZJ18
X1G19
X2J19
XRSF19
U14B
VDDIO
VDDIO
VDDIO
VDDOSC
VSSOSC
VSSOSC
VDDA
VDD
820R1%
R5820R1%
R4
0R5%NI
R66
100nFC84
100nFC85
GND
+3V3
Copyright © 2017, Texas Instruments Incorporated
2.54mm 1x2
1 2JP4
2.54mm 1x2
1 2JP5
+3V3
GNDGND
+5V
GND GND
+3V3 +5V
RESET#
RESET#
GPIO61/SPIACS
GPIO5/PWMOUT3B
GPIO2/PWMOUT2A
GPIO3/PWMOUT2B
GPIO32
ADCINC3/ANALOGIN
ADCINA3/ANALOGIN
ADCINB3/ANALOGIN
ADCIN15/ANALOGIN
GPIO64/SPIBMISO
GPIO139/SCICRX(->MCU)
GPIO125/SD1CLK2PWM/BASED/DAC1
PWM/BASED/DAC2
PWM/BASED/DAC4
ADCIN14/ANALOGIN
GPIO60/SPICLKA
GPIO26/SD2D2
GPIO27/SD2CLK2
GPIO4/PWMOUT3A
GPIO65/SPIBCLK
ADCINA2/ANALOGIN
GPIO67
GPIO29/OPXBAR6
GPIO105/I2CSCLA/J1
GPIO104/I2CSDAA/J1
GPIO124/SD1D2
GPIO122/SD1D1
GPIO123/SD1CLK1
ADCINA0/ANALOGIN(DACA)
GPIO24/OPXBAR1
GPIO1/PWMOUT1B
GPIO0/PWMOUT1A
GPIO16/OPXBAR7ADCINB2/ANALOGIN
GPIO95
GPIO56/SCICIX(<-MCU)
GPIO97
GPIO94
GPIO52/J5
GPIO25/OPXBAR2
GPIO63/SPIBMOSI
GPIO66/SPIBCS
ADCINB4/ANALOGIN
ADCINC4/ANALOGIN
ADCINB5/ANALOGIN
ADCINC5/ANALOGIN
ADCINA1/ANALOGIN(DACB)
GPIO15/OPXBAR4
GPIO7/PWMOUT4B
GPIO6/PWMOUT4A
GPIO22
GPIO111
PWM/BASED/DAC3ADCINA4/ANALOGIN
ADCINA5/ANALOGIN
ADCINC2/ANALOGIN
GPIO8/PWMOUT5A
GPIO9/PWMOUT5B
GPIO58/SPIAMOSI
GPIO59/SPIAMISO
GPIO11/PWMOUT6B
GPIO10/PWMOUT6A
GPIO14/OPXBAR3
GPIO130/SD2D1
GPIO131/SD2CLK1
GPIO40/I2CSDAB/J5
GPIO41/I2CSCLB/J5
GPIO18
GPIO19
123456789
10
J112345678910
J3
12345678910
J2
123456789
10J4
+3V3Analog InUART RX(->MCU)UART TX(<-MCU)GPIO(!)
SPI Clk
I2C SCLI2C SDA
Analog In
GPIO(!)
+5V
Analog In/I2S WSAnalog In/I2S CLKAnalog Out/I2S DOAnalog Out/I2S DI
Analog InAnalog InAnalog InAnalog InGND
GPIO(!)GPIO(!)GPIO(!)GPIO(!)Timer CaptureTimer CapturePWM OutPWM OutPWM OutPWM Out GND
GPIO(!)/PWMGPIO(!)/SPI CSGPIOResetSPI MOSISPI MISOGPIO(!)/SPI CSGPIO(!)/SPI CSGPIO(!)
123456789
10
J512345678910
J7+3V3Analog In
GPIO(!)
SPI Clk
I2C SCLI2C SDA
Analog In
GPIO(!)
UART TX(<-MCU)UART RX(->MCU)
+5V
Analog In/I2S WSAnalog In/I2S CLKAnalog Out/I2S DOAnalog Out/I2S DI
Analog InAnalog InAnalog InAnalog InGND
123456789
10J8
12345678910
J6
GPIO(!)GPIO(!)GPIO(!)GPIO(!)
PWM OutPWM OutPWM OutPWM Out
Timer CaptureTimer Capture
GNDGPIO(!)/PWMGPIO(!)/SPI CSGPIOResetSPI MOSISPI MISOGPIO(!)/SPI CSGPIO(!)/SPI CSGPIO(!)
Copyright © 2017, Texas Instruments Incorporated
LAUNCHXL-F28379D Hardware www.ti.com
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LAUNCHXL-F28379D Overview
Figure 7. P06_BoosterPack Headers
Figure 8. P07_F28379D-PWR
TMS320F28379DZWTT
GPIO52/EQEP1S/EM1A12/SPICLKC/SD1_D1P16
GPIO53/EQEP1I/EM1D31/EM2D15/SPISTEC/SD1_C1P17
GPIO54/SPISIMOA/EM1D30/EM2D14/EQEP2A/SCITXDB/SD1_D1P18
GPIO55/SPISOMIA/EM1D29/EM2D13/EQEP2B/SCIRXDB/SD1_C1P19
GPIO56/SPICLKA/EM1D28/EM2D12/EQEP2S/SCITXDC/SD2_D2N16
GPIO57/SPISTEA/EM1D27/EM2D11/EQEP2I/SCIRXDC/SD2_C2N18
GPIO58/MCLKRA/EM1D26/EM2D10/OUTPUTXBAR1/SPICLKB/SD2_D2/SPISIMOA1N17
GPIO59/MFSRA/EM1D25/EM2D9/OUTPUTXBAR2/SPISTEB/SD2_C2/SPISOMIA1M16
GPIO60/MCLKRB/EM1D24/EM2D8/OUTPUTXBAR3/SPISIMOB/SD2_D3/SPICLKA1M17
GPIO61/MFSRB/EM1D23/EM2D7/SPISOMIB/SD2_C3/SPISTEA1L16
GPIO62/SCIRXDC/EM1D22/EM2D6/EQEP3A/CANRXA/SD2_D1J17
GPIO63/SCITXDC/EM1D21/EM2D5/EQEP3B/CANTXA/SD2_C4/SPISIMOB1J16
GPIO64/EM1D20/EM2D4/EQEP3S/SCIRXDA/SPISOMIB1L17
GPIO65/EM1D19/EM2D3/EQEP3I/SCITXDA/SPICLKB1K16
GPIO66/EM1D18/EM2D2/SDAB/SPISTEB1K17
GPIO67/EM1D17/EM2D2B19
GPIO68/EM1D16/EM2D1C18
GPIO69/EM1D15/SCLB/SPISIMOC1B18
GPIO70/EM1D14/CANRXA/SCITXDB/SPISOMIC1A17
GPIO71/EM1D13/CANTXA/SCIRXDB/SPICLKC1B17
GPIO72/EM1D12/CANTXB/SCITXDC/SPISTEC1B16
GPIO73/EM1D11/XCLKOUT/CANRXB/SCIRXDC1A16
GPIO74/EM1D1C17
GPIO75/EM1D1D16
GPIO76/EM1D8/SCITXDD1C16
GPIO77/EM1D7/SCIRXDD1A15
GPIO78/EM1D6/EQEP2A1B15
GPIO79/EM1D5/EQEP2B1C15
GPIO80/EM1D4/EQEP2S1D15
GPIO81/EM1D3/EQEP2I1A14
GPIO82/EM1D1B14
GPIO83/EM1D2C14
GPIO84/SCITXDA/MDXB/MDXA1A11
GPIO85/EM1D0/SCIRXDA/MDRB/MDRA1B11
GPIO86/EM1A13/EM1CAS/SCITXDB/MCLKXB/MCLKXA1C11
GPIO87/EM1A14/EM1RAS/SCIRXDB/MFSXB/MFSXA1D11
GPIO88/EM1A15/EM1DQM1C6
GPIO89/EM1A16/EM1DQM1/SCITXDC1D6
GPIO90/EM1A17/EM1DQM2/SCIRXDC1A5
GPIO91/EM1A18/EM1DQM3/SDAA1B5
GPIO92/EM1A19/EM1BA1/SCLA1A4
GPIO93/EM1BA0/SCITXDD1B4
GPIO94/SCIRXDD1A3
GPIO96/EM2DQM1/EQEP1A1C3
GPIO97/EM2DQM0/EQEP1B1A2
GPIO98/EM2A0/EQEP1S1F1
GPIO99/EM2A1/EQEP1I1G1
GPIO100/EM2A2/EQEP2A/SPISIMOC1H1
GPIO101/EM2A3/EQEP2B/SPISOMIC1H2
GPIO102/EM2A4/EQEP2S/SPICLKC1H3
GPIO103/EM2A5/EQEP2I/SPISTEC1J1
GPIO104/SDAA/EM2A6/EQEP3A/SCITXDD1J2
GPIO105/SCLA/EM2A7/EQEP3B/SCIRXDD1J3
GPIO106/EM2A8/EQEP3S/SCITXDC1L2
GPIO107/EM2A9/EQEP3I/SCIRXDC1L3
GPIO108/EM2A1L4
GPIO109/EM2A1N2
GPIO110/EM2WAIT1M2
GPIO111/EM2BA1M4
GPIO112/EM2BA2M3
GPIO113/EM2CAS1N4
GPIO114/EM2RAS1N3
GPIO115/EM2CS1V12
GPIO116/EM2CS1W10
GPIO117/EM2SDCKE1U12
GPIO118/EM2CLK1T12
GPIO119/EM2RNW1T15
GPIO120/EM2WE/USB0PFLT1U15
GPIO121/EM2OE/USB0EPEN1W16
GPIO122/SPISIMOC/SD1_D2T8
GPIO123/SPISOMIC/SD1_C2U8
GPIO124/SPICLKC/SD1_D1V8
GPIO125/SPISTEC/SD1_C1T9
GPIO126/SD1_D1U9
GPIO127/SD1_C1V9
GPIO128/SD1_D1W9
GPIO129/SD1_C1T10
GPIO130/SD2_D2U10
GPIO131/SD2_C2V10
GPIO132/SD2_D1W18
GPIO133/AUXCLKIN/SD2_C1G18
GPIO134/SD2_D1V18
GPIO135/SCITXDA/SD2_C1U18
GPIO95B3
U14C
TMS320F28379DZWTT
GPIO136/SCIRXDA/SD2_D4T17
GPIO137/SCITXDB/SD2_C4T18
GPIO138/SCIRXDBT19
GPIO139/SCIRXDCN19
GPIO140/SCITXDCM19
GPIO141/SCIRXDDM18
GPIO142/SCITXDDL19
GPIO143F18
GPIO144F17
GPIO145/EPWM1AE17
GPIO146/EPWM1BD18
GPIO147/EPWM2AD17
GPIO148/EPWM2BD14
GPIO149/EPWM3AA13
GPIO150/EPWM3BB13
GPIO151/EPWM4AC13
GPIO152/EPWM4BD13
GPIO153/EPWM5AA12
GPIO154/EPWM5BB12
GPIO155/EPWM6AC12
GPIO156/EPWM6BD12
GPIO157/EPWM7AB10
GPIO158/EPWM7BC10
GPIO159/EPWM8AD10
GPIO160/EPWM8BB9
GPIO161/EPWM9AC9
GPIO162/EPWM9BD9
GPIO163/EPWM10AA8
GPIO164/EPWM10BB8
GPIO165/EPWM11AC5
GPIO166/EPWM11BD5
GPIO167/EPWM12AC4
GPIO168/EPWM12BD4
U14E
GPIO93
GPIO92
GPIO52
GPIO53
GPIO54
GPIO55
GPIO56/SCICIX(<-MCU)
GPIO57
GPIO60/SPICLKA
GPIO61/SPIACS
GPIO62
GPIO63/SPIBMOSI
GPIO64/SPIBMISO
GPIO65/SPIBCLK
GPIO66/SPIBCS
GPIO67
GPIO68
GPIO69
GPIO70
GPIO71
GPIO72
GPIO73
GPIO74
GPIO75
GPIO76
GPIO77
GPIO78
GPIO79
GPIO80
GPIO81
GPIO82
GPIO83
GPIO85
GPIO86
GPIO87
GPIO88
GPIO89
GPIO90
GPIO91
GPIO94
GPIO95
GPIO96
GPIO97
GPIO98
GPIO99
GPIO100
GPIO101
GPIO102
GPIO103
GPIO104/I2CSDAA
GPIO105/I2CSCLA
GPIO106
GPIO107
GPIO108
GPIO109
GPIO110
GPIO111
GPIO112
GPIO113
GPIO114
GPIO115
GPIO116
GPIO117
GPIO118
GPIO119
GPIO120
GPIO121
GPIO122/SD1D1
GPIO123/SD1CLK1
GPIO124/SD1D2
GPIO125/SD1CLK2
GPIO126
GPIO127
GPIO128
GPIO129
GPIO130/SD2D1
GPIO131/SD2CLK1
GPIO132
GPIO133
GPIO134
GPIO135
GPIO84
GPIO58/SPIAMOSI
GPIO59/SPIAMISO
GPIO136
GPIO137
GPIO138
GPIO139/SCICRX(->MCU)
GPIO140
GPIO141
GPIO142
GPIO143
GPIO144
GPIO145
GPIO147
GPIO148
GPIO149
GPIO150
GPIO151
GPIO153
GPIO154
GPIO155
GPIO156
GPIO157
GPIO158
GPIO159
GPIO160
GPIO162
GPIO163
GPIO164
GPIO165
GPIO166
GPIO167
GPIO168
GPIO161
GPIO146
GPIO152
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15SPRUI77B–August 2016–Revised June 2018Submit Documentation Feedback
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LAUNCHXL-F28379D Overview
Figure 9. P08_F28379D-IO1
DF40C-60DP-0.4V(51)
A02
A13
A24
A35
A46
A57
A68
A79
A811
A912
A1013
A1114
A1215
A1316
A1417
A1518
BUSY50
CSN43
D021
D122
D223
D324
D425
D526
D6/SPI_INT27
D728
D834
D935
D1036
D1137
D1238
D1339
D1440
D1541
E2PROM_LOAD20
EMIF_INT49
ETRESETN60
GND11
GND210
GND319
GND429
GND542
GND651
I2C-SCL54
I2C-SDA55
NRD44
NWR45
RSVD146
RSVD258
RSVD359
SPI_CLK31
SPI_SEL30
SPI_SIMOA32
SPI_SOMIA33
SYNC/LATCH047
SYNC/LATCH148
VCC33A52
VCC33B53
VCC33C56
VCC33D57
J9
TMS320F28379DZWTT
ADCIN14/CMPIN4PT4
ADCIN15/CMPIN4NU4
ADCINA0/DACOUTAU1
ADCINA1/DACOUTBT1
ADCINA2/CMPIN1PU2
ADCINA3/CMPIN1NT2
ADCINA4/CMPIN2PU3
ADCINA5/CMPIN2NT3
ADCINB0/VDACV2
ADCINB1/DACOUTCW2
ADCINB2/CMPIN3PV3
ADCINB3/CMPIN3NW3
ADCINB4V4
ADCINB5W4
ADCINC2/CMPIN6PR3
ADCINC3/CMPIN6NP3
ADCINC4/CMPIN5PR4
ADCINC5/CMPIN5NP4
ADCIND0/CMPIN7PT5
ADCIND1/CMPIN7NU5
ADCIND2/CMPIN8PT6
ADCIND3/CMPIN8NU6
ADCIND4T7
ADCIND5U7
GPIO0/EPWM1A/SDAAC8
GPIO1/EPWM1B/MFSRB/SCLAD8
GPIO2/EPWM2A/OUTPUTXBAR1/SDABA7
GPIO3/EPWM2B/OUTPUTXBAR2/MCLKRB/OUTPUTXBAR2/SCLBB7
GPIO4/EPWM3A/OUTPUTXBAR3/CANTXAC7
GPIO5/EPWM3B/MFSRA/OUTPUTXBAR3/CANRXAD7
GPIO6/EPWM4A/OUTPUTXBAR4/EXTSYNCOUT/EQEP3A/CANTXBA6
GPIO7/EPWM4B/MCLKRA/OUTPUTXBAR5/EQEP3B/CANRXBB6
GPIO8/EPWM5A/CANTXB/ADCSOCAO/EQEP3S/SCITXDAG2
GPIO9/EPWM5B/SCITXDB/OUTPUTXBAR6/EQEP3I/SCIRXDAG3
GPIO10/EPWM6A/CANRXB/ADCSOCBO/EQEP1A/SCITXDB/UPP-WAITB2
GPIO11/EPWM6B/SCIRXDB/OUTPUTXBAR7/EQEP1B/UPP-STARTC1
GPIO12/EPWM7A/CANTXB/MDXB/EQEP1S/SCITXDC/UPP-ENAC2
GPIO13/EPWM7B/CANRXB/MDRB/EQEP1I/SCIRXDC/UPP-D7D1
GPIO14/EPWM8A/SCITXDB/MCLKXB/OUTPUTXBAR3/UPP-D6D2
GPIO15/EPWM8B/SCIRXDB/MFSXB/OUTPUTXBAR4/UPP-D5D3
GPIO16/SPISIMOA/CANTXB/OUTPUTXBAR7/EPWM9A/SD1_D1/UPP-D4E1
GPIO17/SPISOMIA/CANRXB/OUTPUTXBAR8/EPWM9B/SD1_C1/UPP-D3E2
GPIO18/SPICLKA/SCITXDB/CANRXA/EPWM10A/SD1_D2/UPP-D2E3
GPIO19/SPISTEA/SCIRXDB/CANTXA/EPWM10B/SD1_C2/UPP-D1E4
GPIO20/EQEP1A/MDXA/CANTXB/EPWM11A/SD1_D3/UPP-D0F2
GPIO21/EQEP1B/MDRA/CANRXB/EPWM11B/SD1_C3/UPP-CLKF3
GPIO22/EQEP1S/MCLKXA/SCITXDB/EPWM12A/SPICLKB/SD1_D4J4
GPIO23/EQEP1I/MFSXA/SCIRXDB/EPWM12B/SPISTEB/SD1_C4K4
GPIO24/OUTPUTXBAR1/EQEP2A/MDXB/SPISIMOB/SD2_D1K3
GPIO25/OUTPUTXBAR2/EQEP2B/MDRB/SPISOMIB/SD2_C1K2
GPIO26/OUTPUTXBAR3/EQEP2I/MCLKXB/OUTPUTXBAR3/SPICLKB/SD2_D2K1
GPIO27/OUTPUTXBAR4/EQEP2S/MFSXB/OUTPUTXBAR4/SPISTEB/SD2_C2L1
GPIO28/SCIRXDA/EM1CS4/OUTPUTXBAR5/EQEP3A/SD2_D3V11
GPIO29/SCITXDA/EM1SDCKE/OUTPUTXBAR6/EQEP3B/SD2_C3W11
GPIO30/CANRXA/EM1CLK/OUTPUTXBAR7/EQEP3S/SD2_D4T11
GPIO31/CANTXA/EM1WE/OUTPUTXBAR8/EQEP3I/SD2_C4U11
GPIO32/SDAA/EM1CS0U13
GPIO33/SCLA/EM1RNWT13
GPIO34/OUTPUTXBAR1/EM1CS2/SDABU14
GPIO35/SCIRXDA/EM1CS3/SCLBT14
GPIO36/SCITXDA/EM1WAIT/CANRXAV16
GPIO37/OUTPUTXBAR2/EM1OE/CANTXAU16
GPIO38/EM1A0/SCITXDC/CANTXBT16
GPIO39/EM1A1/SCIRXDC/CANRXBW17
GPIO40/EM1A2/SDABV17
GPIO41/EM1A3/SCLBU17
GPIO42/SDAA/SCITXDA/USB0DMD19
GPIO43/SCLA/SCIRXDA/USB0DPC19
GPIO44/EM1A4K18
GPIO45/EM1A5K19
GPIO46/EM1A6/SCIRXDDE19
GPIO47/EM1A7/SCITXDDE18
GPIO48/OUTPUTXBAR3/EM1A8/SCITXDA/SD1_D1R16
GPIO49/OUTPUTXBAR4/EM1A9/SCIRXDA/SD1_C1R17
GPIO50/EQEP1A/EM1A10/SPISIMOC/SD1_D2R18
GPIO51/EQEP1B/EM1A11/SPISOMIC/SD1_C2R19
U14D
+3V3
+3V3
GND
GPIO93
GPIO92
GPIO69
GPIO70GPIO71
GPIO72GPIO73
GPIO74GPIO75
GPIO76
GPIO77GPIO78
GPIO79GPIO80
GPIO81GPIO82
GPIO83GPIO85
GPIO86 GPIO87
GPIO88 GPIO89
GPIO100
GPIO101
GPIO102
GPIO103
GPIO105/I2CSCLA/J9
GPIO107
GPIO108
GPIO104/I2CSDAA/J9
GPIO29/J9
GPIO51
GPIO51
GPIO50
GPIO50
GPIO49
GPIO49
GPIO48
GPIO48
GPIO46
GPIO46
GPIO45
GPIO45
GPIO44
GPIO44
GPIO41/I2CSCLB
GPIO41/I2CSCLB
GPIO40/I2CSDAB
GPIO40/I2CSDAB
GPIO39
GPIO39
GPIO38
GPIO38
GPIO37
GPIO37
GPIO36
GPIO36
GPIO52/J9
GPIO33
GPIO32
GPIO32
GPIO31
GPIO31
GPIO30
GPIO30
GPIO34
GPIO34
GPIO47
GPIO47
GPIO43/SCIARX(->MCU)
GPIO42/SCIATX(<-MCU)
GPIO35
GPIO29
GPIO28
GPIO27/SD2CLK2
GPIO14/OPXBAR3
GPIO25/OPXBAR2
GPIO24/OPXBAR1
GPIO23
GPIO22
GPIO21
GPIO20
GPIO19
GPIO18
GPIO16/OPXBAR7
GPIO15/OPXBAR4
GPIO13
GPIO12
GPIO7/PWMOUT4B
GPIO6/PWMOUT4A
GPIO5/PWMOUT3B
GPIO4/PWMOUT3A
GPIO3/PWMOUT2B
GPIO2/PWMOUT2A
GPIO1/PWMOUT1B
GPIO0/PWMOUT1A
ADCIND5
ADCIND4
ADCIND3
ADCIND2
ADCIND1
ADCIND0
ADCINC5/ANALOGIN
ADCINC4/ANALOGIN
ADCINC3/ANALOGIN
ADCINC2/ANALOGIN
ADCINB5/ANALOGIN
ADCINB4/ANALOGIN
ADCINB3/ANALOGIN
ADCINB2/ANALOGIN
ADCINB0
ADCINA5/ANALOGIN
ADCINA4/ANALOGIN
ADCINA3/ANALOGIN
ADCINA2/ANALOGIN
ADCINA1/ANALOGIN(DACB)
ADCINA0/ANALOGIN(DACA)
ADCIN15/ANALOGIN
ADCIN14/ANALOGIN
ADCINB1
GPIO8/PWMOUT5A
GPIO9/PWMOUT5B
GPIO11/PWMOUT6B
GPIO10/PWMOUT6A
GPIO26/SD2D2
GPIO41/I2CSCLB/J9
GPIO41/I2CSCLB/J9 GPIO41/I2CSCLB/J5
GPIO40/I2CSDAB/J9
GPIO40/I2CSDAB/J9
GPIO40/I2CSDAB/J5
GPIO17
0R 5%R67
0R 5%NI
R68
0R 5%NI
R70
0R 5%R69
GPIO105/I2CSCLA
GPIO104/I2CSDAA
GPIO105/I2CSCLA/J9
GPIO105/I2CSCLA/J1
GPIO104/I2CSDAA/J9
GPIO104/I2CSDAA/J1 0R 5%R71
0R 5%NI
R72
0R 5%NI
R74
0R 5%R73
GPIO52
GPIO29
GPIO52/J9
GPIO52/J5
GPIO29/J9
GPIO29/OPXBAR6 0R 5%R75
0R 5%NI
R76
0R 5%NI
R78
0R 5%R77
Copyright © 2017, Texas Instruments Incorporated
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LAUNCHXL-F28379D Overview
Figure 10. P09_F28379_IO2
CAN
LEVEL SHIFT
ABI
GNDPWR
J14
J15
AB
I
GNDPWR
TXB0106PWR
A11
A23
A34
A45
A56
A67
B116
B214
B313
B412
B511
B610
GND9
OE8
VCCA2
VCCB15
U2
2K21%
R2
SN65HVD234DR
CANH7
CANL6
D1
EN5
GN
D2
R4
RS8
VC
C3
U3
120R1%
R34
2.54mm 1x3
123
J12
10K1%
R35
10K1%
R42
0R 5%R43
0R 5%R44
100nFC31
100nFC32
100nFC37
2.54mm 1x3
123
J10
2.54mm 1x5
12345
QEP_A
2.54mm 1x5
12345
QEP_B
1K1%
R131K1%
R291K1%
R48
1K1%
R491K1%
R501K1%
R51
+5V +3V3
GND
+3V3
GNDGND
GND
GND
GND
GND
+3V3
GND
+5V
+5V
GND
GND
GND
GND
+3V3
+5V
+5V
GPIO55
GPIO99
GPIO20EQEP1A
EQEP1A
EQEP1B
EQEP1B
EQEP1I
EQEP1I
EQEP2A
EQEP2A
EQEP2B
EQEP2B
EQEP2I
EQEP2I
CANH
CANL
GPIO54
GPIO12
GPIO17
GPIO21
GPIO57
1nF
C50
1nF
C51
1nF
C52
1nF
C53
1nF
C54
1nF
C55
2.54mm 1x3
123
J16
GND
+5V
0R5%NI
R79
GND
Copyright © 2017, Texas Instruments Incorporated
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LAUNCHXL-F28379D Overview
Figure 11. P10_EX-Headers
LAUNCHXL-F28379D Hardware www.ti.com
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LAUNCHXL-F28379D Overview
6.3 PCB LayoutFigure 12 through Figure 21 show the LAUNCHXL-F28379D Rev 2.0 PCB layout. The gerber files andPCB layout for both LAUNCHXL-F28379D Revision 2.0 and Revision 1.1 can be found in C2000Ware.
Figure 12. Top Figure 13. GND
Figure 14. Route1 Figure 15. Route2
Figure 16. VDD Figure 17. Bottom
Figure 18. Top Silkscreen Overlay Figure 19. Bottom Silkscreen Overlay
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LAUNCHXL-F28379D Overview
Figure 20. Top Pad Master Figure 21. Bottom Pad Master
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6.4 Bill of Materials (BOM)Table 9 lists the LAUNCHXL-F28379D bill of materials.
Table 9. LAUNCHXL-F28379D Bill of Materials
Item# Note Part Number Qty
REFDesignator
Manufacturer(Digi-Key) Description
ROHS(Digi-Key)
Lead FreeStatus
ReachStatus(Digi-Key)
ReachEffective
Date(Digi-Key) Availability
Description(Digi-Key)
ManufacturerPart NumberDigi-Key)
Digi-KeyPart Number(Digi-Key)
1 PCB LAUNCHXL-F28379D PCBrev2.0
1 PCB 6 layers,redsoldermask,wihtesilkscreen,130*59mm,ENIG,Launchxl-F28379DRev2.0 pcb
2 MCU TMS320F28379DZWTT
1 U14 TexasInstruments
IC, MCU 32BIT1024KB,TMS320F28379DZWTT,BGA-337,SMD,customersupply
YES Lead Free ReachNotAffected
Jun-2016 Non-Stock IC MCU 32BIT 1MBFLASH 337NFBGA
TMS320F28379DZWTT
TMS320F28379DZWTT-ND
3 Memory 93LC56BT-I/OT 1 U8 MicrochipTechnology
IC,EEPROM Serial-Microwire 2K-Bit 128 x16 2MHz,93LC56BT-I/OT,SOT-23-6,SMD
YES Lead Free ReachNotAffected
Jan-2017 Active IC EEPROM 2KBIT2MHZ SOT23-6
93LC56BT-I/OT 93LC56BT-I/OTCT-ND
4 PowerManagement
REF5030IDGKT 1 U13 TexasInstruments
IC ?V-Ref Precision 3V10mA 8-Pin VSSOP T/R
YES Lead Free ReachNotAffected
Jun-2016 Active IC VREF SERIES 3V8VSSOP
REF5030IDGKT 296-24501-1-ND
5 DC-DC LMR62421XMFE/NOPB
1 U12 TexasInstruments
Conv DC-DC Single StepUp 2.7V to 5.5V 5-PinSOT-23 T/R,CUSTOMER SUPPLY
YES Lead Free ReachNotAffected
Jun-2016 Active IC REG BST SEPICADJ 2.1A SOT23
LMR62421XMFE/NOPB
LMR62421XMFE/NOPBCT-ND
6 DC-DC TPS62080ADSGT 1 U4 TexasInstruments
IC REG BUCK SYNCADJ 1.2A 8WSON
YES Lead Free ReachNotAffected
Jun-2016 Active IC REG BUCK ADJ1.2A SYNC 8WSON
TPS62080ADSGT 296-30360-1-ND
7 DC-DC TPS62162DSGT 1 U17 TexasInstruments
IC REG BUCK SYNC3.3V 1A 8WSON
YES Lead Free ReachNotAffected
Jun-2016 Active IC REG BUCK 3.3V1A SYNC 8WSON
TPS62162DSGT 296-29897-1-ND
8 Amplifier THS4531IDGKR 1 U1 TexasInstruments
IC OPAMP DIFF 27MHZRRO 8VSSOP TR
YES Lead Free ReachNotAffected
Jun-2016 Active IC OPAMP DIFF27MHZ RRO 8VSSOP
THS4531IDGKR 296-30342-1-ND
9 Amplifier OPA350EA/250 2 U11,U19 TexasInstruments
IC OPAMP GP 38MHZRRO 8VSSOP T/R
YES Lead Free ReachNotAffected
Jun-2016 Active IC OPAMP GP38MHZ RRO 8VSSOP
OPA350EA/250 OPA350EACT-ND
10 Logic TXB0106PWR 1 U2 TexasInstruments
IC, 6-bit bidirectionalvoltage-level translatorwith auto-directionsensing and ±15-kV ESDprotection,TXB0106PWR, TSSOP-16, SMD,CusomerSupply
YES Lead Free ReachNotAffected
Jun-2016 Active IC 6BIT NON-INVTRANSLTR 16TSSOP
TXB0106PWR 296-23759-1-ND
11 Logic SN74LVC2G07DBVR
1 U9 TexasInstruments
Buffer/Driver 2-CH Non-Inverting Open DrainCMOS 6-Pin SOT-23T/R,CUSTOMERSUPPLY
YES Lead Free ReachNotAffected
Jun-2016 Active IC BUFF/DVR DLNON-INV SOT23-6
SN74LVC2G07DBVR
296-13494-1-ND
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LAUNCHXL-F28379D Overview
Table 9. LAUNCHXL-F28379D Bill of Materials (continued)
Item# Note Part Number Qty
REFDesignator
Manufacturer(Digi-Key) Description
ROHS(Digi-Key)
Lead FreeStatus
ReachStatus(Digi-Key)
ReachEffective
Date(Digi-Key) Availability
Description(Digi-Key)
ManufacturerPart NumberDigi-Key)
Digi-KeyPart Number(Digi-Key)
12 Interface FT2232HQ-REEL 1 U6 FTDI, FutureTechnologyDevicesInternational Ltd
IC,Dual High Speed USBto MultipurposeUART/FIFOIC,FT2232HQ-REEL,QFN-64,SMD
YES Lead Free ReachNotAffected
Jan-2017 Active IC USB HS DUALUART/FIFO 64-QFN
FT2232HQ-REEL 768-1025-1-ND
13 Interface SN65HVD234DR 1 U3 TexasInstruments
IC CAN transceiver 3.3V8-SOIC
YES Lead Free ReachNotAffected
Jun-2016 Active IC CANTRANSCEIVER 3.3V8-SOIC
SN65HVD234DR 296-27991-1-ND
14 Isolator ISO7231CDWR 1 U7 TexasInstruments
IC DGTL ISO 3CHCMOS16SOIC,CUSTOMERSUPPLY
YES Lead Free ReachNotAffected
Jun-2016 Active DGTL ISO 2.5KVGEN PURP 16SOIC
ISO7231CDWR 296-38966-1-ND
15 Isolator ISO7240CDWR 1 U5 TexasInstruments
IC DGTL ISO 4CHCMOS16SOIC,CUSTOMERSUPPLY
YES Lead Free ReachNotAffected
Jun-2016 Active DGTL ISO 2.5KVGEN PURP 16SOIC
ISO7240CDWR 296-38555-1-ND
16 Thick filmResistor
RC0402JR-070RL 4 R15, R33,R43, R44
Yageo RES,0R,±5%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Dec-2015 Active RES SMD 0.0ΩJUMPER 1/16W 0402
RC0402JR-070RL 311-0.0JRCT-ND
17 Thick filmResistor
RC0402FR-0749R9L
2 R59, R62 Yageo RES,49R9,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 49.9 Ω 1%1/16W 0402
RC0402FR-0749R9L
311-49.9LRCT-ND
18 Thick filmResistor
RC0402FR-071KL 13 R3,R13,R22, R23,R29, R36,R37, R40,R41, R48,R49, R50,
R51
Yageo RES,1K,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 1K Ω 1%1/16W 0402
RC0402FR-071KL 311-1.00KLRCT-ND
19 Thick filmResistor
RC0402FR-072KL 4 R56, R57,R63, R64
Yageo RES,2K,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 2K Ω 1%1/16W 0402
RC0402FR-072KL 311-2KLRCT-ND
20 Thick filmResistor
RC0402FR-072K2L 6 R2, R6,R8, R9,
R10, R31
Yageo RES,2K2,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 2.2K Ω 1%1/16W 0402
RC0402FR-072K2L 311-2.20KLRCT-ND
21 Thick filmResistor
RC0402FR-0710KL 7 R12, R14,R35, R42,R45,R60,
R61
Yageo RES,10K,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 10K Ω 1%1/16W 0402
RC0402FR-0710KL 311-10.0KLRCT-ND
22 Thick filmResistor
RC0402FR-0712KL 1 R24 Yageo RES,12K,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 12K Ω 1%1/16W 0402
RC0402FR-0712KL 311-12.0KLRCT-ND
23 Thick filmResistor
RC0402FR-0730K1L
1 R17 Yageo RES,30K1,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 30.1K Ω1% 1/16W 0402
RC0402FR-0730K1L
311-30.1KLRCT-ND
24 Thick filmResistor
RC0402FR-0739K2L
1 R55 Yageo RES,39K2,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 39.2K Ω1% 1/16W 0402
RC0402FR-0739K2L
311-39.2KLRCT-ND
25 Thick filmResistor
RC0402FR-07100KL
1 R47 Yageo RES,100K,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 100K Ω 1%1/16W 0402
RC0402FR-07100KL
311-100KLRCT-ND
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LAUNCHXL-F28379D Overview
Table 9. LAUNCHXL-F28379D Bill of Materials (continued)
Item# Note Part Number Qty
REFDesignator
Manufacturer(Digi-Key) Description
ROHS(Digi-Key)
Lead FreeStatus
ReachStatus(Digi-Key)
ReachEffective
Date(Digi-Key) Availability
Description(Digi-Key)
ManufacturerPart NumberDigi-Key)
Digi-KeyPart Number(Digi-Key)
26 Thick filmResistor
RC0402FR-071ML 1 R7 Yageo RES,1M,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 1M Ω 1%1/16W 0402
RC0402FR-071ML 311-1.00MLRCT-ND
27 Thick filmResistor
RC0603JR-070RL 6 R67,R69,R71,R73,R75,R77
Yageo RES,0R,±5%,1/10W,SMD0603
YES Lead Free ReachNotAffected
Dec-2015 Active RES SMD 0.0ΩJUMPER 1/10W 0603
RC0603JR-070RL 311-0.0GRCT-ND
28 Thick filmResistor
RL0603FR-070R1L 2 R11,R52 Yageo RES,0R1,±1%,1/10W,SMD0603
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 0.1 Ω 1%1/10W 0603
RL0603FR-070R1L 311-.10QCT-ND
29 Thick filmResistor
RC0603FR-07120RL
1 R34 Yageo RES,120R,±1%,1/10W,SMD0603
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 120 Ω 1%1/10W 0603
RC0603FR-07120RL
311-120HRCT-ND
30 Thick filmResistor
RC0402FR-07820RL
2 R4, R5 Yageo RES,820R,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 820 Ω 1%1/16W 0402
RC0402FR-07820RL
311-820LRCT-ND
31 Thick filmResistor
RC0402FR-07680RL
6 R1,R26,R27,R38,R39, R46
Yageo RES,680R,±1%,1/16W,SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 680 Ω 1%1/16W 0402
RC0402FR-07680RL
311-680LRCT-ND
32 Thick filmResistor
ERJ-2RKF1783X 1 R53 PanasonicElectronicComponents
RES, 178K Ω, 1%,1/10W, SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 178K Ω 1%1/10W 0402
ERJ-2RKF1783X P178KLCT-ND
33 Thick filmResistor
ERJ-2RKF6492X 1 R54 PanasonicElectronicComponents
RES, 64.9K Ω, 1%,1/10W, SMD0402
YES Lead Free ReachNotAffected
Jan-2017 Active RES SMD 64.9K Ω1% 1/10W 0402
ERJ-2RKF6492X P64.9KLCT-ND
34 Thick filmResistor
CRCW040212R0JNED
2 R58, R65 Vishay Dale RES SMD 12 Ω 5%1/16W 0402 TR
YES Lead Free ReachNotAffected
Dec-2015 Active RES SMD 12 Ω 5%1/16W 0402
CRCW040212R0JNED
541-12JCT-ND
35 CeramicCapacitor
GRM1555C1H101JA01D
2 C20, C82 MurataElectronics NorthAmerica
CAP,100PF,±5%,C0G,50V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 100PF 50VC0G/NP0 0402
GRM1555C1H101JA01D
490-5922-1-ND
36 CeramicCapacitor
GRM1555C1H181JA01D
1 C40 MurataElectronics NorthAmerica
CAP,180PF,±5%,C0G,50V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 180PF 50VC0G/NP0 0402
GRM1555C1H181JA01D
490-3231-1-ND
37 CeramicCapacitor
GRM1555C1H821JA01D
1 C25 MurataElectronics NorthAmerica
CAP,820PF,±5%,C0G,50V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 820PF 50VC0G/NP0 0402
GRM1555C1H821JA01D
490-3242-1-ND
38 CeramicCapacitor
GRM155R71H102KA01D
6 C50, C51,C52, C53,C54, C55
MurataElectronics NorthAmerica
CAP,1NF,±10%,X7R,50V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 1000PF50V X7R 0402
GRM155R71H102KA01D
490-1303-1-ND
39 CeramicCapacitor
GRM155R61A224KE19D
1 C83 MurataElectronics NorthAmerica
CAP,220NF,±10%,X5R,10V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 0.22UF 10VX5R 0402
GRM155R61A224KE19D
490-3910-1-ND
40 CeramicCapacitor
GRM155R60J105KE19D
5 C6, C7,C19,
C21,C22
MurataElectronics NorthAmerica
CAP,1UF,±10%,X5R,6.3V,SMD0402 ?suffix Jstand for 330mm reel ?
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 1UF 6.3VX5R 0402
GRM155R60J105KE19D
490-1320-1-ND
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LAUNCHXL-F28379D Overview
Table 9. LAUNCHXL-F28379D Bill of Materials (continued)
Item# Note Part Number Qty
REFDesignator
Manufacturer(Digi-Key) Description
ROHS(Digi-Key)
Lead FreeStatus
ReachStatus(Digi-Key)
ReachEffective
Date(Digi-Key) Availability
Description(Digi-Key)
ManufacturerPart NumberDigi-Key)
Digi-KeyPart Number(Digi-Key)
41 CeramicCapacitor
GRM155R60J225ME15D
14 C2, C27,C29, C42,C46, C47,C48, C49,C71, C72,C75, C76,C77, C78
MurataElectronics NorthAmerica
CAP,2.2UF,±20%,X5R,6.3V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 2.2µF 6.3VX5R 0402
GRM155R60J225ME15D
490-4519-1-ND
42 CeramicCapacitor
GRM188R60J106ME47D
5 C68, C69,C70, C79,
C81
MurataElectronics NorthAmerica
CAP,10UF,±20%,X5R,6.3V,SMD0603
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 10µF 6.3VX5R 0603
GRM188R60J106ME47D
490-3896-1-ND
43 CeramicCapacitor
GRM188R60J226MEA0D
3 C23,C38,C80
MurataElectronics NorthAmerica
CAP,22UF,±20%,X5R,6.3V,SMD0603
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 22µF 6.3VX5R 0603
GRM188R60J226MEA0D
490-7611-1-ND
44 CeramicCapacitor
GRM32DR71E106KA12L
2 C41, C44 MurataElectronics NorthAmerica
CAP,10UF,±10%,X7R,25V,SMD1210
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 10µF 25VX7R 1210
GRM32DR71E106KA12L
490-1867-1-ND
45 CeramicCapacitor
GRM155R61A104KA01D
35 C1, C5,C9, C12,
C13, C14,C16, C24,C28, C30,C31, C32,C33, C34,C35, C36,C37, C39,C43, C56,C57, C58,C59, C60,C61, C62,C63, C64,C65, C66,C67, C73,C74,C84,
C85
MurataElectronics NorthAmerica
CAP,100NF(0.1uf),±10%,X5R,10V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 0.1µF 10VX5R 0402
GRM155R61A104KA01D
490-1318-1-ND
46 CeramicCapacitor
GRM32ER61E226KE15L
1 C45 MurataElectronics NorthAmerica
CAP,22UF,±10%,X5R,25V,SMD1210
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 22µF 25VX5R 1210
GRM32ER61E226KE15L
490-3889-1-ND
47 CeramicCapacitor
GRM155R60J475ME47D
3 C8, C10,C11
MurataElectronics NorthAmerica
CAP,4.7UF,±20%,X5R,6.3V,SMD0402 fix PNadd D?20151023?
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 4.7µF 6.3VX5R 0402
GRM155R60J475ME47D
490-5915-1-ND
48 CeramicCapacitor
GRM188R61A335KE15D
1 C15 MurataElectronics NorthAmerica
CAP,3.3uF,±10%,X5R,10V,SMD0603
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 3.3µF 10VX5R 0603
GRM188R61A335KE15D
490-6411-1-ND
49 CeramicCapacitor
GRM1555C1H360JA01D
4 C3,C4,C17,C18
MurataElectronics NorthAmerica
CAP,36pF,±5%,C0G,50V,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active CAP CER 36PF 50VC0G/NP0 0402
GRM1555C1H360JA01D
490-5937-1-ND
50 Inductor LQH3NPN1R0NJ0L 1 L8 MurataElectronics NorthAmerica
FIXED IND 1µH 1.62A40 MΩ SMD,±30%
YES Lead Free ReachNotAffected
Jun-2016 Active FIXED IND 1µH 1.62A40 MΩ SMD
LQH3NPN1R0NJ0L 490-5342-1-ND
51 Inductor CDRH2D18/HPNP-2R2NC
1 L7 Sumida AmericaComponents Inc.
Power inductor,magneticshielded,2.2µH,1.6A,0.06Ω,3.0X3.0X1.8mm,SMD
YES Lead Free ReachNotAffected
Jun-2016 Active FIXED IND 2.2µH1.9A 60 MΩ SMD
CDRH2D18/HPNP-2R2NC
308-2295-2-ND
LAUNCHXL-F28379D Hardware www.ti.com
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LAUNCHXL-F28379D Overview
Table 9. LAUNCHXL-F28379D Bill of Materials (continued)
Item# Note Part Number Qty
REFDesignator
Manufacturer(Digi-Key) Description
ROHS(Digi-Key)
Lead FreeStatus
ReachStatus(Digi-Key)
ReachEffective
Date(Digi-Key) Availability
Description(Digi-Key)
ManufacturerPart NumberDigi-Key)
Digi-KeyPart Number(Digi-Key)
52 Inductor CDRH3D16/HPNP-3R3NC
1 L6 Sumida AmericaComponents Inc.
Power Inductor,Magneticshielded,3.3µH,1.4A,0.085Ω,3.8X3.8X1.6mm,SMD
YES Lead Free ReachNotAffected
Jun-2016 Non-Stock FIXED IND 3.3µH1.8A 85 MΩ SMD
CDRH3D16/HPNP-3R3NC
308-1981-1-ND
53 Ferrite Bead BLM15AG601SN1D 2 L1, L2 MurataElectronics NorthAmerica
FerriteBead,600Ω@100MHz,±25%,300mA,0.6Ω,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active FERRITE BEAD 600Ω 0402 1LN
BLM15AG601SN1D 490-1006-1-ND
54 Ferrite Bead BLM15PD600SN1D 2 L3, L4 MurataElectronics NorthAmerica
FerriteBead,60Ω@100MHz,±25%,1700mA,0.06Ω,SMD0402
YES Lead Free ReachNotAffected
Jun-2016 Active FERRITE BEAD 60 Ω0402 1LN
BLM15PD600SN1D 490-5201-1-ND
55 Ferrite Bead BKP1005EM221-T 2 L5, L11 Taiyo Yuden FERRITE BEAD 220 Ω0402,±25%
YES Lead Free ReachNotAffected
Jun-2016 Active FERRITE BEAD 220Ω 0402 1LN
BKP1005EM221-T 587-3290-1-ND
56 LED 150080VS75000 2 D1, D4 Wurth ElectronicsInc.
LED, Bright GREEN ,570nm,20mA,SMD,0805
YES Lead Free ReachNotAffected
Jan-2017 Active LED GREEN CLEAR0805 SMD
150080VS75000 732-4986-1-ND
57 LED 150080BS75000 2 D7, D10 Wurth ElectronicsInc.
LED, BLUE ,470NM,20mA,SMD,0805
YES Lead Free ReachNotAffected
Jan-2017 Active LED BLUE CLEAR0805 SMD
150080BS75000 732-4982-1-ND
58 LED 150080SS75000 2 D8, D9 Wurth ElectronicsInc.
LED, SUPPER RED,630NM,20mA,SMD,0805
YES Lead Free ReachNotAffected
Jan-2017 Active LED RED CLEAR0805 SMD
150080SS75000 732-4985-1-ND
59 Diode 1N5819HW-7-F 1 D3 DiodesIncorporated
Diode,SchottkyDiode,1N5819HW-7-F,40V,1A,SOD-123,SMD,-65~125,TR
YES Lead Free ReachNotAffected
Jan-2017 Active DIODE SCHOTTKY40V 1A SOD123
1N5819HW-7-F 1N5819HW-FDICT-ND
60 Polyswitch MF-MSMF050-2 1 F1 Bourns Inc. PTC RESETTABLE .50A15V 1812
YES Lead Free ReachNotAffected
Jan-2017 Active PTC RESETTABLE.50A 15V 1812
MF-MSMF050-2 MF-MSMF050-2CT-ND
61 Crystal ABLS2-12.000MHZ-D4Y-T
1 Q3 Abracon LLC Crystal 12MHz ±30ppm(Tol) ±30ppm (Stability)18pF FUND 50Ω 2-PinHC-49/US SMD T/R
YES Lead Free REACHAFFECTED
Jan-2017 Active CRYSTAL12.0000MHZ 18PFSMD
ABLS2-12.000MHZ-D4Y-T
535-9869-1-ND
62 Crystal ATS100B-E 1 Q1 CTS-FrequencyControls
Crystal 10.0000MHz30ppm 18pF 60 Ω -40°C- 85°C Through HoleHC49/US
YES Lead Free ReachNotAffected
Jan-2017 Active CRYSTAL10.0000MHZ 18PFT/H
ATS100B-E CTX919-ND
63 Pin Header P6E02A-602530-B1 6 JP1, JP2,JP3, JP4,JP5, JP6
Connector,PinHeader,Straight,Male,1x2Pin,2.54MMpitch,6.00,3.00,GoldFlash 1u,black,DIP,alt_code:15071705
64 Pin Header P6E03A-602530-B1 3 J10,J12,J16
Connector,PinHeader,Straight,Male,1x3Pin,2.54MMpitch,6.00,3.00,GoldFlash 1u,black,DIP,alt_code:15071706
www.ti.com LAUNCHXL-F28379D Hardware
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LAUNCHXL-F28379D Overview
Table 9. LAUNCHXL-F28379D Bill of Materials (continued)
Item# Note Part Number Qty
REFDesignator
Manufacturer(Digi-Key) Description
ROHS(Digi-Key)
Lead FreeStatus
ReachStatus(Digi-Key)
ReachEffective
Date(Digi-Key) Availability
Description(Digi-Key)
ManufacturerPart NumberDigi-Key)
Digi-KeyPart Number(Digi-Key)
65 Pin Header P101-1*05SGF-116A-NX
2 QEP_A,QEP_B
Connector,PinHeader,Straight,Male,1x5Pin,2.54MMpitch,6.06,3.00,GoldFlash 1u, black,DIP
66 Pin Header P101-2*04SGF-116A-NX
1 J21 Connector,PinHeader,Straight,Male,2x4Pin,2.54MMpitch,6.06,3.00,GoldFlash 1u, black,DIP
67 Pin Socket CRD-081413-A-G 4 (J1,J3),(J2?J4),(J5?J7),(J6?
J8)
Connector,PinSocket,Straight,Female,2x10Pin,2.54MMpitch,8.51,9.91,GoldFlash 10u, black,DIPupgrade MPN. old part->CRD-081413-G-A
68 USBConnector
897-43-005-00-100001
1 CON1 Mill-MaxManufacturingCorp.
Connector,MiniUSB Bport,5 position,RightAngle,Gold flash30u,black,SMD
YES Lead Free ReachNotAffected
Jan-2017 Active CONN RECEPT MINI-USB TYPE B SMT
897-43-005-00-100001
ED90341CT-ND
69 BTBConnector
DF40C-60DP-0.4V(51)
1 J9 Hirose ElectricCo Ltd
CONN HDR 60POS0.4MM SMD GOLD TR
YES Lead Free ReachNotAffected
Dec-2015 Active CONN HDR 60POS0.4MM SMD GOLD
DF40C-60DP-0.4V(51)
H11628CT-ND
70 Shunt MJ501-EOGF-B-K 5 JP1,JP2,JP3,JP4,J
P5
Connector,Shunt,opentype 2Pin,2.54MMPitch,6MM Height,GoldFlash 1u,black,Bulk
71 Tactile Switch B3F-3152 1 S3 OmronElectronics Inc-EMC Div
SWITCH TACTILESPST-NO 0.05A 24V
YES Lead Free ReachNotAffected
Dec-2015 Active SWITCH TACTILESPST-NO 0.05A 24V
B3F-3152 SW410-ND
72 DIP Switch 219-3MST 1 S1 CTSElectrocomponents
Switch, DIP Switches,3Position,2.54MMPitch,black housing,whiteplunger,SMD
YES Lead Free ReachNotAffected
Jun-2016 Active SWITCH SLIDE DIPSPST 100MA 20V
219-3MST CT2193MST-ND
References www.ti.com
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LAUNCHXL-F28379D Overview
7 ReferencesThe following documents describe the C2000 devices. Copies of these documents are available on theInternet at http://www.ti.com/c2000 and www.ti.com/c2000-launchpad, or click on the links below:1. TMS320F2837xD Dual-Core Delfino™ Microcontrollers Data Manual (SPRS880)2. TMS320F28379D, TMS320F28377D, TMS320F28376D, TMS320F28375D, TMS320F28374D Delfino
Microcontrollers Silicon Errata (SPRZ412)3. TMS320F2837xD Dual-Core Delfino Microcontrollers Technical Reference Guide (SPRUHM8)4. TMS320C28x Extended Instruction Sets Technical Reference Manual (SPRUHS1)5. TMS320C28x Instruction Set Simulator Technical Overview (SPRU608)6. TMS320C28x Optimizing C/C++ Compiler v6.1 User's Guide (SPRU514)7. TMS320C28x Assembly Language Tools v6.1 User's Guide (SPRU513)
www.ti.com Frequently Asked Questions (FAQ)
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LAUNCHXL-F28379D Overview
8 Frequently Asked Questions (FAQ)1. Can other programming and debug tools (such as an XDS510 emulator) be used with the C2000
LaunchPad?While a user could potentially connect an external emulator to the F28379D device present on theLaunchPad, it would require some rework of the board. It is recommended that users who want to usean external emulator purchase a controlCard and docking station that includes an external JTAGconnector.
2. What versions of Code Composer Studio can be used to develop software for the C2000 LaunchPad?It is highly recommend that novice users develop applications with at least Code Composer Studio v6.The drivers, examples, and other associated software are tailored to make the user experience assmooth as possible in Code Composer Studio v6.
3. Why can’t I connect to the LaunchPad in Code Composer Studio?There are a number of things that could cause this and they all have an easy fix.• Is S1 switch 3 in the down position?
This is the TRST pin that enables and disables JTAG functionality on the chip. This switch must bein the up position for the emulator to be able to connect.
• Are both power LEDs lit?The board has two power domains because of the isolated JTAG interface. For low-voltageapplication development, JTAG isolation is not needed and the power domains can be combined toallow for convenience (that is, the board can be powered completely through the USB). Ensure thatjumpers are placed on the posts of JP1 and JP2.
• Are drivers correctly installed for the XDS100v2 present on the LaunchPad?Right click on My Computer and select properties. Navigate to the Hardware tab in the dialog boxand open the device manager. Scroll to the bottom of the list and expand the USB Serial Buscontrollers item. Are there two entries for TI XDS100 Channel A/B? If not, try unplugging andreplugging in the board. Does Windows give you any messages in the system tray? In DeviceManger, do either of the entries have a yellow exclamation mark over their icon? If so, tryreinstalling the drivers.
4. Why is the serial connection not working?• Are you using the correct COM port?
Right click on My Computer and select properties. Navigate to the Hardware tab in the dialog box andopen the device manager. Scroll to Ports (COM & LPT) and expand this entry. Is there a USB SerialPort listed? If so, read the COM number to the right of the entry; this is the COM number you shouldbe using.
• Are you using the correct baud rate?Most, if not all, of the examples are configured for a baud rate of 115200 when the CPU is running at200 MHz. If you have changed the PLL settings or written your own application you may have torecalculate the baud rate for your specific application. For information on how to do this, see theTMS320F2837xD Delfino Microcontrollers Technical Reference Guide.
Revision History www.ti.com
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Revision History
Revision HistoryNOTE: Page numbers for previous revisions may differ from page numbers in the current version.
Changes from A Revision (August 2017) to B Revision ................................................................................................ Page
• Update was made in Section 2.1. ....................................................................................................... 3• Table 8: Changed Mux Values ePWM1A and ePWM1B to ePWM2A and ePWM2B. ........................................... 9
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