XMC1400 Boot Kit - Infineon Technologies
Transcript of XMC1400 Boot Kit - Infineon Technologies
User Manual Revision 1.0
www.infineon.com 2016-01-21
UG_201512_PL30_005
XMC1400 Boot Kit
For XMC1000 Family
About this document
Scope and purpose
This document provides the schematic and hardware description of XMC1400 Boot Kit, so that user is able to
make use of this board for their application code development on XMC1404-Q064X0200 device.
Intended audience
For people who are interested to explore the functionality of XMC1404 device.
Table of Contents
About this document....................................................................................................................... 1
Table of Contents ........................................................................................................................... 1
1 Overview ...................................................................................................................... 2
1.1 Key Features ............................................................................................................................................2
1.2 Block Diagram .........................................................................................................................................2
2 Hardware Description .................................................................................................... 3
2.1 Power Supply...........................................................................................................................................4
2.2 Reset ........................................................................................................................................................5
2.3 Clock Generation.....................................................................................................................................5
2.3.1 External Crystal and external Real time Clock crystal ......................................................................5
2.4 Boot Option .............................................................................................................................................7
2.5 CAN bus connector..................................................................................................................................7
2.6 Debug Interface and virtual com port ....................................................................................................8
2.7 LED ...........................................................................................................................................................9
2.8 Potentiometer .........................................................................................................................................9
2.9 Application Card connector .................................................................................................................. 10
3 Production Data ...........................................................................................................11
3.1 Schematics ............................................................................................................................................ 11
3.2 Layout and Geometry............................................................................................................................ 14
3.3 CR number of XMC1400 Boot Kit........................................................................................................... 15
3.4 Bill of Material........................................................................................................................................ 16
Revision History ............................................................................................................................18
User Manual 2 Revision 1.0
2016-01-21
XMC1400 Boot KitFor XMC1000 Family
Overview
1 Overview
This document describes the features and hardware details of the XMC1400 Boot Kit. This board is mounted
with ARM® Cortex®-M0 based XMC1400 Microcontroller from Infineon Technologies AG. This board is part ofInfineon’s XMC1000 Application Kits.
The XMC1400 Boot Kit (CPU-14A-V1) houses the XMC1400 Microcontroller and a 2x30 pin edge for application
expansion. The board along with application cards (e.g. Colour LED Card, White LED Card) demonstrates the
capabilities of XMC1400. The main use case for this board is to demonstrate the generic features of XMC1400
device, including tool chain. The focus is safe operation under evaluation conditions. The board is neither costnor size optimized and does not serve as a reference design.
1.1 Key Features
The XMC1400 Boot Kit is equipped with the following features
• XMC1400 (ARM®Cortex®-M0 based) Microcontroller, VQFN64
• Connection to application cards via card edge connector
• Detachable J-Link debugger and UART virtual COM port, with micro USB connector
• Four user LEDs
• Potentiometer, connected to analog input P2.5
• Power supply via Micro-USB connector
• Usage of 20MHz external crystal for CAN communication
• Usage of 32.768 kHz external crystal as standby clock
1.2 Block Diagram
Figure 1 shows the functional block diagram of the XMC1400 Boot Kit.
Features include:
• On board Debugger for downloading and debugging of application code
• Virtual COM port for UART communication with terminal program e.g. Hyperterminal
• 2x30 card edge connector for extension to application card e.g. Colour LED Card and White LED Card
• 4 User LEDs connected to GPIO P4.0, P4.1, P4.2, P4.3
• Variable resistor R110 connected to analog input P2.5
• All the pins of XMC1400 are accessible via the connector JP101, JP103, JP104 and JP105
• CAN interface with CAN transceiver mounted
• External crystal 20 MHz and 32.768 kHz mounted
User Manual 3 Revision 1.0
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Hardware Description
Figure 1 Block Diagram of XMC1400 Boot Kit
2 Hardware Description
The following sections give a detailed description of the hardware and how it can be used.
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Hardware Description
Figure 2 XMC1400 Boot Kit
2.1 Power Supply
XMC1400 Boot Kit is powered from the micro USB connector (+5V); however, there is a current limit that can be
drawn from the host PC through USB. If the CPU-14A-V1 board is used to drive other application board (e.g.
Colour LED Card, White LED Card) and the total current required exceeds 500mA, then the board needs to be
powered by external power supply connected to VDD and GND connection on board.
The XMC1404 device can operate by power supply of 1.8V till 5.5Vdc. On this board 5Vdc is used to power the
XMC1404 device. However, if the user wants to power the XMC1404 device with 3.3Vdc, then set jumper atJP201 to 3.3V side.
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Hardware Description
Figure 3 Power Supply circuit
2.2 Reset
Since XMC1404 does not have a reset pin, the user can unplug and replug the USB cable to achieve power-on
master reset.
2.3 Clock Generation
XMC1404 has two internal oscillators: DCO1 and DCO2. DCO1 has a clock output of 96 MHz. DCO2 is used to
generate the standby clock running at 32.768 kHz which used for Real Time Clock too. The main clock, MCLK
and fast peripherial clock, PCLK, are generated from the output of DCO1.
2.3.1 External Crystal and external Real time Clock crystal
The XMC1400 device allows its main clock MCLK to be generated from external crystal to achieve higher
accuracy. It also allows its real time clock to be run from external RTC crystal. On the XMC1400 Boot Kit, a 20
MHz external crystal circuit and a 32.768 kHz RTC external crystal circuit are implement on board to allows user
to run its application using external crystals. The 20 MHz crystal Q102 is connected to the XMC1404 device via
R111 and R114. If user does not want to use the external 20MHz crystal Q102 but wish to use P0.10 and P0.11 asgeneral purpose pins, then R111 and R114 need to be desoldered while R113 and R115 soldered.
The 32.768 kHz crystal Q101 is not connected to the XMC1404 device. If user wants to use the external 32.768
kHz crystal, the two 0 ohm resistors R109 and R112 need to be soldered while R108 and R110 need todesoldered. Please refer to Figure 6 for locations of these 0 ohm resistors.
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Hardware Description
Figure 4 The external 20 MHz crystal
Figure 5 The external 32.768 kHz RTC crystal
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Hardware Description
Figure 6 The positions of 0 ohm resistors for connection of external crystals to XMC1400 device
2.4 Boot Option
After power-on reset with master reset, XMC1404 device enters different boot modes depending on the BMI
(Boot Mode Index) value stored in flash configuration sector 0 (CS0). The BMI value pre-programmed in the
XMC1404 on Boot Kit is User mode with debug enabled, hence, the XMC1404 device will start to run the
application code in its embedded flash after power on reset.
2.5 CAN bus connector
A CAN bus header connector is provided for CAN communication with the XMC1404 device using CAN node 1
RXD pin P4.8 and TXD pin P4.9.
If the user wants to test the CAN BSL mode of XMC1404 device using this CAN transceiver circuit, then R104 and
R106 need to be removed, then RXD and TXD pins of IFX1051LE need to be connected to P0.14 and P0.15 ofXMC1404 device respectively. Furthermore, dip-switches SWD/SPD and SWCLK need to set to position ‘off’.
IFX1051LE requires 5V power supply. If the input voltage to XMC1404 is set to 3.3V, then remove R101 and solder
R102. Next, supply an external power supply of 5V to pin4 (+) of JP102. By making these changes, the user canuse this CAN transceiver for CAN BSL handshaking.
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Hardware Description
Figure 7 CAN transceiver circuitry
Figure 8 CAN header JP102, H refers to CANH, L refers to CANL, + refers to VCC, 0 refers to GND
2.6 Debug Interface and virtual com port
XMC1400 Boot Kit has on-board debugger which supports Serial Wire Debug (SWD) and Single Pin Debug (SPD)
as debug interface. SPD is a proprietary debugging protocol from Infineon Technologies and it requires only 1
pin for debug communication. The debugger also provides a virtual COM port which support UART
communication via P1.3 (rx-in) and P1.2 (tx-out) of XMC1400. There is a 2x5 pins Header Debug connector X201.
Table 1 Debug connector X201
Pin Signal Name XMC1400 Signal Description
1 SWCLK P0.15 SWD clock signal
2 SWD(SPD) P0.14 SWD / SPD signal
3 VDDP VDDP +5V
4 GND VSSP Ground
5 GND VSSP Ground
6 VDDP VDDP +5V
7 PC_TXD P1.3 UART data received
8 PC_RXD P1.2 UART data transmit
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Hardware Description
2.7 LED
The port pins P4.0, P4.1, P4.2 and P4.3 are connected to LED101, LED102, LED103 and LED104 respectively. The
LEDs turns on by output ‘Low’ at the respective port pins.
Figure 9 LEDs circuit
Table 2 LEDs Pinout
LED XMC1400 Port Pin Description
LED101 P4.0 Output ‘Low’ to on LED
LED102 P4.1 Output ‘Low’ to on LED
LED103 P4.2 Output ‘Low’ to on LED
LED104 P4.3 Output ‘Low’ to on LED
2.8 Potentiometer
XMC1400 Boot Kit provides a potentiometer R110 for ease of use and testing of the on-chip analog to digital
converter. The potentiometer is connected to the analog input P2.5. The analog output range of thepotentiometer is the same the VDDP voltage supplied to the XMC1404 device.
Figure 10 Potentiometer Circuit
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2.9 Application Card connector
XMC1400 Boot Kit has a 2x30 pins card edge connector. The mating connector is SAMTEC HSEC8-130-01-L-RA-
XX.
Figure 11 Pinout of the 2x30 pin edge connector
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Production Data
3 Production Data
3.1 Schematics
This chapter contains the schematics for the XMC1400 Boot Kit:
• Figure 12: CPU, Pin Headers, external crystals, CAN transceiver circuitry, Potentiometer, LEDs and 60pinEdge connector
• Figure 13: On-board Debugger, Power Supply
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Production Data
Figure 12 Schematic 1 of 2 XMC1400 Boot Kit
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User Manual 13 Revision 1.0
2016-01-21
XMC1400 Boot KitFor XMC1000 Family
Production Data
Figure 13 Schematic 2 of 2 XMC1400 Boot Kit
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User Manual 14 Revision 1.0
2016-01-21
XMC1400 Boot KitFor XMC1000 Family
Production Data
3.2 Layout and Geometry
Figure 14 XMC1400 Boot Kit layout and geometry
User Manual 15 Revision 1.0
2016-01-21
XMC1400 Boot KitFor XMC1000 Family
Production Data
3.3 CR number of XMC1400 Boot Kit
Figure 15 CR number of XMC1400 Boot Kit
1:
+3V
3
2:
TC
K
3:
TM
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4:
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J_302
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C101
C101
C102C102
C103C103
C104C104
C105
C105
C106C106C107C107
C108
C108
C109C109
C110C110
C111
C111
C112
C112
C201
C201
C202
C202
C203
C203
C204
C204
C205
C205
C206
C206
C207
C207
C208
C208
C209
C209C
210
C210
C211
C211
C212
C212
C213C213
C214
C214
C215
C215
IC101
IC101
IC102
IC102
IC201
IC201
IC202IC202IC203IC203
IC204IC204
IC205IC205IC206IC206
JP101
JP101
JP102
JP102
JP103
JP103
JP104
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JP105
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R101
R101
R102R102
R103R103
R104R104
R105
R105
R106R106
R107
R107
R108
R108
R109
R109
R110
R110
R111
R111
R112
R112
R113
R113
R114R114R115R115
R116R116
R117
R117
R118
R118
R119
R119
R120
R120
R121
R121
R122
R122
R123
R123
R201
R201
R202
R202
R203
R203
R204
R204
R205
R205
R206
R206
R207
R207
R208
R208
R209
R209
R210
R210
R211
R211
R212
R212
R213
R213
R214
R214
R215
R215
R216
R216R
217
R217
R218
R218
S201
S201
U201
U201
V201
V201
V202
V202 V
203
V203
V204
V204
X101
X101
X102X102
X201
X201 X202
X202
X203
X203
User Manual 16 Revision 1.0
2016-01-21
XMC1400 Boot KitFor XMC1000 Family
Production Data
3.4 Bill of Material
Table 3 XMC1400 Boot Kit
No. Value Device Qty ReferenceDesignator
1 JMPER_VSEL 1x3 pin header 1 JP201
2 CAN pins 2x2 pin header 1 JP102
3 Debug 2x4 pin header 2 X102 X201
4 100nF 10V 10% 0402 Capacitor X7R 9 C110 C204 C207 C208 C209 C211
C212 C213 C215
5 100nF 10V 10% 0603 Capacitor X7R 4 C101 C102 C103 C203
6 10uF 10V 10% 0805 Capacitor X7R 1 C202
7 15pF 10V 1% 0402 Capacitor NPO 4 C104 C105 C205 C206
8 220nF 10V 10% 0402 Capacitor X7R 4 C108 C109 C111 C112
9 22uF 10V 10% 0805 Capacitor X7R 1 C201
10 4.7uF 10V 10% 0805 Capacitor X7R 1 C210
11 8pF 10V 2% 0402 Capacitor NPO 2 C106 C107
12 12 MHz S 3.2X2.5 Crystal 12 MHz SMD 8pF
NX3225GB-12.000M-STD-CRA-2
1 Q201
13 20 MHz S 3.2X2.5 Crystal 20 MHz SMD 8pF
NX3225GB-20.000M-STD-CRA-2
1 Q102
13a1) 20 MHz S 3.2X2.5 Crystal 20 MHz SMD 8pF HONG
KONG X’TALS LIMITED
3225M2000IB01
1 Q102
14 ESD8V0L2B-03L Diode, Infineon 1 V204
15 SN74LVC2T45DCT Dual-bit Dual supply bus
transceiver
2 IC202 IC205
16 BLM18PG600 Ferrite Bead 1 L201
17 LED-GN D 0603 LED, green 1 V201
18 jumper (red) Jumper 1 JP201A
19 ZX62-AB-5PA Connector Micro-USB AB SMD
ZX62-AB-5PA Hirose1 X202
20 LED-RED D 0603 LED, red 1 V202
21 LED-RED D 0603 LED, red 4 LED101 LED102 LED103 LED104
22 0R 10% 0201 Resistor 3 R108 R110 R111
23 0R 10% 0603 Resistor 8 R101 R104 R105 R106 R107 R117
R123 R203
24 10k Resistor, Potentiometer 1 R122
25 10k 10% 0402 Resistor 7 R208 R211 R214 R215 R216 R217
R218
26 120R 10% 0805 Resistor 1 R103
27 1K 10% 0603 Resistor 1 R116
28 1M 10% 0402 Resistor 1 R209
User Manual 17 Revision 1.0
2016-01-21
XMC1400 Boot KitFor XMC1000 Family
Production Data
No. Value Device Qty ReferenceDesignator
29 33R 10% 0402 Resistor 2 R204 R206
30 4k710% 0402 Resistor 1 R207
31 4K7 10% 0603 Resistor 4 R118 R119 R120 R121
32 510R 10% 0201 Resistor 1 R114
33 510R 10% 0603 Resistor 1 R205
34 5K10 10% 1% Resistor 2 R210 R212
35 680R 10% 0603 Resistor 2 R201 R202
36 32.768 kHz, FC-135 Crystal 32.768 kHz SMD 12.5pF
NDK NX3215SA-32.678K
1 Q101
36a1) 32.768 kHz, FC-135 Crystal 32.768 kHz SMD
HONG KONG X’TALS LIMITED
3215K3276IB01
1 Q101
37 SN74LVC1T45DCK Single bit Dual supply bus
transceiver
3 IC203 IC204 IC206
38 IFX1051LE CAN transceiver, Infineon 1 IC101
39 XMC1404-Q064X0200 Microcontroller, Infineon 1 IC102
40 IFX25001MEV33 Voltage regulator, 3V3, Infineon 1 IC201
41 XMC4200-Q48K256 Microcontroller, Infineon 1 U201
42 BAT60A Diode Infineon 1 V203
43 no ass. 10nF 10% 0402 Capacitor 1 C214
44 MCU pins 2x8 pin header 4 JP101 JP103 JP104 JP105
45 XMC_SWD 1x5 pin header 1 1X05
46 no ass. 0R 10% 0805 Resistor 1 R102
47 no ass. 0R 10% 0201 Resistor 1 R109
48 no ass. 0R 10% 0201 Resistor 1 R112
49 no ass. 0R 10% 0201 Resistor 1 R113
50 no ass. 0R10% 0201 Resistor 1 R115
51 no ass. 0R 10% 0603 Resistor 1 R213
Note: 1) Alternative part.
User Manual 18 Revision 1.0
2016-01-21
Revision History
XMC1400 Boot KitFor XMC1000 Family
Revision History
Major changes since the last revision
Page or Reference Description of change
V1.0 Initial Version
Trademarks of Infineon Technologies AGAURIX™, C166™, CanPAK™, CIPOS™, CoolGaN™, CoolMOS™, CoolSET™, CoolSiC™, CORECONTROL™, CROSSAVE™, DAVE™, DI-POL™, DrBlade™, EasyPIM™,EconoBRIDGE™, EconoDUAL™, EconoPACK™, EconoPIM™, EiceDRIVER™, eupec™, FCOS™, HITFET™, HybridPACK™, Infineon™, ISOFACE™, IsoPACK™,i-Wafer™, MIPAQ™, ModSTACK™, my-d™, NovalithIC™, OmniTune™, OPTIGA™, OptiMOS™, ORIGA™, POWERCODE™, PRIMARION™, PrimePACK™,PrimeSTACK™, PROFET™, PRO-SIL™, RASIC™, REAL3™, ReverSave™, SatRIC™, SIEGET™, SIPMOS™, SmartLEWIS™, SOLID FLASH™, SPOC™, TEMPFET™,thinQ!™, TRENCHSTOP™, TriCore™.
Trademarks updated August 2015
Other TrademarksAll referenced product or service names and trademarks are the property of their respective owners.
Edition 2016-01-21
UG_201512_PL30_005
Published by
Infineon Technologies AG
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© 2016 Infineon Technologies AG.
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