LPC-P11C24
CORTEX-M0 Development board
USER’S MANUAL
Revision C, March 2013
Designed by OLIMEX Ltd, 2012
All boards produced by Olimex LTD are ROHS compliant
OLIMEX© 2012
LPC-P11C24 user's manual
DISCLAIMER
© 2013 Olimex Ltd. Olimex®, logo and combinations thereof, are registered trademarks of Olimex Ltd.
Other product names may be trademarks of others and the rights belong to their respective owners.
The information in this document is provided in connection with Olimex products. No license, express
or implied or otherwise, to any intellectual property right is granted by this document or in connection
with the sale of Olimex products.
It is possible that the pictures in this manual differ from the latest revision of the board.
The product described in this document is subject to continuous development and improvements. All
particulars of the product and its use contained in this document are given by OLIMEX in good faith.
However all warranties implied or expressed including but not limited to implied warranties of
merchantability or fitness for purpose are excluded. This document is intended only to assist the reader in the
use of the product. OLIMEX Ltd. shall not be liable for any loss or damage arising from the use of any
information in this document or any error or omission in such information or any incorrect use of the
product.
This evaluation board/kit is intended for use for engineering development, demonstration, or evaluation
purposes only and is not considered by OLIMEX to be a finished end-product fit for general consumer use.
Persons handling the product must have electronics training and observe good engineering practice
standards. As such, the goods being provided are not intended to be complete in terms of required design-,
marketing-, and/or manufacturing-related protective considerations, including product safety and
environmental measures typically found in end products that incorporate such semiconductor components or
circuit boards.
Olimex currently deals with a variety of customers for products, and therefore our arrangement with the user
is not exclusive. Olimex assumes no liability for applications assistance, customer product design, software
performance, or infringement of patents or services described herein.
THERE IS NO WARRANTY FOR THE DESIGN MATERIALS AND THE
COMPONENTS USED TO CREATE LPC-P11C24. THEY ARE CONSIDERED
SUITABLE ONLY FOR LPC-11C24.
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Table of Contents
DISCLAIMER...............................................................................................................
CHAPTER 1: OVERVIEW..........................................................................................
1. Introduction to the chapter.........................................................................................................
1.1 Features.......................................................................................................................................
1.2 Target market and purpose of the board.................................................................................
1.3 Organization...............................................................................................................................
CHAPTER 2: SETTING UP THE LPC-P11C24 BOARD........................................
2. Introduction to the chapter.........................................................................................................
2.1 Electrostatic warning.................................................................................................................
2.2 Requirements.............................................................................................................................
2.3 Powering the board....................................................................................................................
2.4 Prebuilt software and bootloader.............................................................................................
CHAPTER 3: LPC-P11C24 BOARD DESCRIPTION..............................................
3. Introduction to the chapter.........................................................................................................
3.1 Layout (top view).......................................................................................................................
CHAPTER 4: THE LPC11C24 MICROCONTROLLER.........................................
4. Introduction to the chapter.........................................................................................................
4.1 The microcontroller...................................................................................................................
CHAPTER 5: CONTROL CIRCUITY.......................................................................
5. Introduction to the chapter.........................................................................................................
5.1 Reset............................................................................................................................................
5.2 Clocks..........................................................................................................................................
5.3 Power supply circuit..................................................................................................................
CHAPTER 6: CONNECTORS AND PINOUT..........................................................
6. Introduction to the chapter.........................................................................................................
6.1 SWD debug connector...............................................................................................................
6.2 UEXT connector.........................................................................................................................
6.3 Proto area pads..........................................................................................................................
6.4 RS232..........................................................................................................................................
6.5 PWR Jack...................................................................................................................................
6.8 CAN interface.............................................................................................................................
6.12 Jumper description..................................................................................................................
6.12.1 PIO1_LOW............................................................................................................................
6.12.2 PIO3_LOW............................................................................................................................
6.12.3 PIO1_RS and RST_E...........................................................................................................
6.12.4 SILENT/NORMAL..............................................................................................................
6.12.5 5V_DIS...................................................................................................................................
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6.12.6 CAN_T...................................................................................................................................
6.13 Additional hardware components..........................................................................................
CHAPTER 7: BLOCK DIAGRAM AND MEMORY...............................................
7. Introduction to the chapter.........................................................................................................
7.2 Processor block diagram...........................................................................................................
7.3 Physical memory map...............................................................................................................
CHAPTER 8: SCHEMATICS......................................................................................
8. Introduction to the chapter.........................................................................................................
8.1 Eagle schematic..........................................................................................................................
8.2 Physical dimensions...................................................................................................................
CHAPTER 9: REVISION HISTORY AND SUPPORT............................................
9. Introduction to the chapter.........................................................................................................
9.1 Document revision.....................................................................................................................
9.2 Board revision............................................................................................................................
9.3 Useful web links and purchase codes.......................................................................................
9.3 Product support.........................................................................................................................
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OLIMEX© 2012
LPC-P11C24 user's manual
CHAPTER 1: OVERVIEW
1. Introduction to the chapter
Thank you for choosing the LPC-P11C24 development board from Olimex! This document
provides a user’s guide for the Olimex LPC-P11C24 board. As an overview, this chapter gives the
scope of this document and lists the board’s features. The document’s organization is then detailed.
The LPC-P11C24 development board enables code development of applications running on the
microcontroller LPC11C24, manufactured by NXP Semiconductors.
1.1 Features
MCU: LPC11C24 Cortex-M0, up to 50 Mhz, 32 kB Flash, 8kB SRAM, CAN,UART RS485, two SSP, I2C/Fast+, ADC
Power supply circuit
Power-on led
CAN interface
RS232 interface
Debug interface – SWD (Serial Wire Debug)
UEXT connector
Two user leds
Two user buttons
Reset button
Prototype area
Variable input voltage
FR-4, 1.5 mm, soldermask, component print
Dimensions: 92x72mm (3.6 x 2.8")
1.2 Target market and purpose of the board
The LPC-P11C24 is a development board with prototyping area. It is suitable for hobbyists in the
fields of ARM development.
The strong points of the board are the CAN interface, the built-in bootloader, the proto area and the
low price.
The software for the boards is released under General Purpose License.
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1.3 Organization
Each section in this document covers a separate topic, organized as follows:
– Chapter 1 is an overview of the board usage and features
–
–
Chapter 2 provides a guide for quickly setting up the board and software notes
Chapter 3 contains the general board diagram and layout
–
Chapter 4 describes the component that is the heart of the board: the LPC11C14
microcontroller
Chapter 5 is an explanation of the control circuitry associated with the microcontroller to
reset. Also shows the clocks on the board
–
–
–
Chapter 6 covers the connector pinout, peripherals and jumper description
Chapter 7 shows the memory map
–
–
Chapter 8 provides the schematics
Chapter 9 contains the revision history, useful links and support information
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CHAPTER 2: SETTING UP THE LPC-P11C24 BOARD
2. Introduction to the chapter
This section helps you set up the LPC-P11C24 development board for the first time. Please consider
first the electrostatic warning to avoid damaging the board, then discover the hardware and software
required to operate the board.
The procedure to power up the board is given, and a description of the default board behavior is
detailed.
2.1 Electrostatic warning
LPC-P11C24 is shipped in a protective anti-static package. The board must not be exposed to high
electrostatic potentials. A grounding strap or similar protective device should be worn when
handling the board. Avoid touching the component pins or any other metallic element.
2.2 Requirements
In order to set up the LPC-P11C24 optimally, the following items are required:
- 7V to 9V source of power with 1A maximum amperage.
- Personal Computer with RS232 port
- RS232-RS232 cable
- TRACE/SWD interface programmer for custom code
Code can be loaded via the RS232-RS232 interface and the bootloader, however it is highly
recommended to have a SWD/TRACE programmer at your disposal.
Note that OpenOCD OLIMEX programmers + SWD adapter at the moment of writing are
supported only in Rowleys Crossworks for ARM.
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2.3 Powering the board
The board is powered via the PWR jack by 7 to 9 volts (preferably closer to the upper limit if you
use all peripherals and GPIOs).
When powered by 9V the current measured is around 40mA. The red, green and yellow leds (PWR
LED, LED1 and LED2) turn on.
2.4 Prebuilt software and bootloader
The prebuilt software is a bootloader and a simple LEDs and buttons test. When you power the
board initially all LEDs will be on. If you press and hold the B1 button LED2 should start blinking.
If you press and hold WAKE_UP button LED1 should start blinking. Upon releasing the buttons the
LEDs should return to their initial “always on” state.
In order to connect with the bootloader you should close PIO1_RS and RST_E jumpers. You will
also need RS232 cable and RS232 computer port. After that you can use NXP's FlashMagic
software to check if the board is connected successfully. You can also load binary files via the
RS232 using the FlashMagic.
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CHAPTER 3: LPC-P11C24 BOARD DESCRIPTION
3. Introduction to the chapter
Here you get acquainted with the main parts of the board. Note the names used on the board might
differ from the names used below to describe them. For the actual names check the LPC-P11C24
board itself.
3.1 Layout (top view)
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LPC-P11C24 user's manual
CHAPTER 4: THE LPC11C24 MICROCONTROLLER
4. Introduction to the chapter
In this chapter is located the information about the heart of LPC-P11C24 – its microcontroller. The
information is a modified version of the datasheet provided by its manufacturers.
4.1 The microcontroller
System:
✔ ARM Cortex-M0 processor, running at frequencies of up to 50 MHz.
✔ ARM Cortex-M0 built-in Nested Vectored Interrupt Controller (NVIC).
✔ Serial Wire Debug.
✔ System tick timer.
Memory:
✔ 32 kB on-chip flash program memory.
✔ 8 kB SRAM data memory.
✔ In-System Programming (ISP) and In-Application Programming (IAP) via on-chip
bootloader software.Flash ISP commands can be issued via UART or C_CAN.
Digital peripherals:
✔ General Purpose I/O (GPIO) pins with configurable pull-up/pull-down resistors.
✔ 36 GPIO pins on the LPC11C24 parts.
✔ GPIO pins can be used as edge and level sensitive interrupt sources.
✔ High-current output driver (20 mA) on one pin.
✔ High-current sink drivers (20 mA) on two I2C-bus pins in Fast-mode Plus.
Four general purpose counter/timers with a total of four capture inputs 12 match outputs.
Programmable WatchDog Timer (WDT).
✔ Analog peripherals:
✔ 10-bit ADC with input multiplexing among 8 pins.
Serial interfaces:
✔ UART with fractional baud rate generation, internal FIFO, and RS-485 support.
✔ Two SPI controllers with SSP features and with FIFO and multi-protocol capabilities.
✔ I2C-bus interface supporting full I2C-bus specification and Fast-mode Plus with a data
rate of 1 Mbit/s with multiple address recognition and monitor mode.
✔ C_CAN controller. On-chip C_CAN and CANopen drivers included.
✔ On-chip, high-speed CAN transceiver.
Clock generation:
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✔ 12 MHz internal RC oscillator trimmed to 1 % accuracy that can optionally be used as a
system clock.
✔ Crystal oscillator with an operating range of 1 MHz to 25 MHz.
✔ Programmable watchdog oscillator with a frequency range of 7.8 kHz to 1.8 MHz.
✔ PLL allows CPU operation up to the maximum CPU rate without the need for a highfrequency crystal. May be run from the system oscillator or the internal RC oscillator.
✔ Clock output function with divider that can reflect the system oscillator, IRC, CPU
clock, or the Watchdog clock.
Power control:
✔ Integrated PMU (Power Management Unit) to minimize power consumption during Sleep,
Deep-sleep, and Deep power-down modes.
✔ Three reduced power modes: Sleep, Deep-sleep, and Deep power-down.
✔ Processor wake-up from Deep-sleep mode via a dedicated start logic using 13 of the GPIO
pins.
✔ Power-On Reset (POR).
✔ Brownout detect with four separate thresholds for interrupt and forced reset.
Unique device serial number for identification.
Single 3.3 V power supply (1.8 V to 3.6 V).
Available as 48-pin LQFP package.
For comprehensive information on the microcontroller visit the Freescale’s web page for a
datasheet.
At the moment of writing the microcontroller datasheet can be found at the following link:
http://www.nxp.com/documents/data_sheet/LPC11CX2_CX4.pdf
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CHAPTER 5: CONTROL CIRCUITY
5. Introduction to the chapter
Here you can find information about reset circuit and quartz crystals locations, the power supply
circuit is discussed.
5.1 Reset
LPC-P11C24's reset circuit includes R49 (33Ω), R48 (10kΩ), and a RESET button.
5.2 Clocks
12 MHz quartz crystal Q1 is connected to pins 6 and 7 of the LPC11C24 processor.
5.3 Power supply circuit
The power supply circuit of LPC-P11C24 allows flexible input supply from 7V to 9V. This means a
wider range of power supplies, adapters, converters are applicable. The maximum amperage
recommended is 1A by default.
After initial power-up the board consumes 40mA @ 9V.
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CHAPTER 6: CONNECTORS AND PINOUT
6. Introduction to the chapter
In this chapter are presented the connectors that can be found on the board all together with their
pinout and notes about them. Jumpers functions are described. Notes and info on specific
peripherals are presented. Notes regarding the interfaces are given.
6.1 SWD debug connector
The TRACE interface is used to program and debug the board.
JTAG/SWD interface
Pin #
Signal Name
Pin #
Signal Name
1
+3.3V
11
GND
2
+3.3V
12
GND
3
Not connected
13
Not connected
4
GND
14
GND
5
Not connected
15
RST
6
GND
16
GND
7
SWD
17
GND
8
GND
18
GND
9
SWCLK
19
+5V_JTAG
10
GND
20
GND
Notice the orientation of the cut on the connector in the picture above.
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6.2 UEXT connector
LPC-P11C24 board has a UEXT connector and can interface Olimex's UEXT expansion modules.
For more information on UEXT please visit:
https://www.olimex.com/Products/Modules/UEXT/
UEXT connector
Pin #
Signal Name
1
+3.3V
2
GND
3
TXD
4
RXD
5
SCL
6
SDA
7
MISO1
8
MOSI1
9
SCK1
10
SSEL1
Notice the orientation of the cut on the connector in the picture above.
6.3 Proto area pads
The proto area allows easier and safer analyzing of signals on the board and also provides easier
access to free processor pins. In the table below the pads are listed with their corresponding
processor pins. When a name of signal is available and written before the processor pin this means
the pad is used for the peripheral of the board and provides debug interface. If you wish to use such
a pad as GPIO probably you would have to disable some of peripherals on the board.
The pad names are written on the board and the names are above the corresponding pads.
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GPIO connector hardware
Pad
[Name], Processor pin#
name
Pad name [Name], Processor pin#
P0_0 RST, 3
P0_1 ISP_E, 3
P0_2 10
P0_3 PIO0_3, 14
P0_4 SCL, 15
P0_5 SDA, 16
P0_6 23
P0_7 B1, 24
P0_8 27
P0_9 28
P0_10 SWCLK, 29
P0_11 32
P1_0 33
P1_1 34
P1_2 35
P1_3 SWD, 39
P1_4 40
P1_5 WAKE_UP, 45
Name Processor pin#
Name Processor pin#
P1_6 RXD, 46
P1_7 TXD, 47
P1_8 9
P1_10 LED2, 30
P1_11 LED1, 42
P2_0 SSEL1, 2
P2_1 SCK1, 13
P2_2 MISO1, 26
P2_3 MOSI1, 38
P2_6 1
P2_7 11
P2_8 12
P2_10 25
P2_11 31
P3_0 36
P3_1 37
P3_2 43
P3_3 CAN_MODE, 48
VIN_1 EXTERNAL SUPPLY, CAUTION
GND30 GND
There are also 3.3V row of pads on the top of the proto area, +5V row of pads under the 3.3V one.
At the bottom of the proto area there is GND row of pads.
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6.4 RS232
RS232's RXD and TXD can be found on the UEXT, on the processor's pins 46 and 47 and on the
proto area P1_6 and P1_7.
Pin #
Signal Name
1
Not Connected
2
T2OUT
3
R1IN
4
RST
5
GND
6
Not Connected
7
R2IN
8
Not Connected
9
Not Connected
6.5 PWR Jack
The power jack used is the typical 2.5mm one used by Olimex in most of our products. You should
provide between 7 and 9 volts @ 1A to the board.
Pin #
Signal Name
1
Power Input
2
GND
More info about the power supply can be found in chapter 5 of this manual
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6.8 CAN interface
There is a CAN connector for controller area network.
CAN
Pin#
SIGNAL
NAME
Processor Pin#
1
GND
-
2
CANL (low)
18
3
CANH (high)
19
6.12 Jumper description
Please note that the jumpers on the board are either PTH or SMD type. For setting the SMD
jumpers please consider that if you feel insecure of your soldering/cutting technique it is better not
to try to adjust those jumpers.
6.12.1 PIO1_LOW
When open starts user program after reset.
If closed starts the internal bootloader after reset.
The default position is open.
6.12.2 PIO3_LOW
When open PIO3 is high – UART bootloader is selected.
If closed PIO3 is low – CAN bootloader is selected.
The default position is open.
6.12.3 PIO1_RS and RST_E
When both open open UART RTS doesn't control PIO1 and UART DTR doesn't control reset.
When both closed UART RTS controls PIO1 (if PIO1_LOW is opened), UART_DTR controls
RESET.
The default position for both jumpers is open.
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6.12.4 SILENT/NORMAL
Silent/Normal jumper alternatively switches the CAN operation mode. Either Silent T or Normal T,
you need CAN enabled.
The default position is jumper open.
6.12.5 5V_DIS
When open VR2(5V) is enabled.
If closed disables VR2(5V).
The default position is open.
6.12.6 CAN_T
When closed CAN terminator (2x62 Ohm) is connected.
When open CAN terminator (2x62 Ohm) is disconnected.
The default position is closed.
6.13 Additional hardware components
The components below are mounted on LPC-P11C24 but are not discussed above. They are listed
here for completeness:
Reset button - used for hardware reset of the board
B1 and WAKE_UP - buttons
LED1 (Green) + LED2 (Yelow) + Power LED (Red)
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LPC-P11C24 user's manual
CHAPTER 7: BLOCK DIAGRAM AND MEMORY
7. Introduction to the chapter
On the next page you can find a memory map for this family of processors. It is strongly
recommended to refer to the original datasheet released by NXP for one of higher quality.
7.2 Processor block diagram
The block diagram is taken from the original datasheet of LPC11Cx2/Cx4.
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7.3 Physical memory map
This is the memory map diagram from the original datasheet of LPC 11C24. Note that Cx4
processors have 32kB flash memory.
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CHAPTER 8: SCHEMATICS
8. Introduction to the chapter
In this chapter are located the schematics describing logically and physically LPC-P11C24.
8.1 Eagle schematic
LPC-P11C24 schematic is visible for reference here. You can also find them on the web page for
LPC-P11C24 at our site: https://www.olimex.com/Products/ARM/NXP/LPC-P11C24/. They are
located in HARDWARE section.
The EAGLE schematic is situated on the next page for quicker reference.
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+5V
+5V_JTAG
VIN
C11
+
C12
D3
OUT
1N5819S
+5V
IN
10uF/6.3V
Z1
BZV55C6V2(NA)
10uF/6.3V
R12
680/1%
RS232
R2
240/1%
C5
C17
C6
C9
100nF
R1
390/1%
GND
3.3V
V CC
U3
G1
6
7
8
9
G2
2
6
C1+
V+
C1-
V-
C2+
C2-
RS232
14
7
1
2
3
4
5
R6
1K
13
8
T1IN
T2IN
T1OUT
T2OUT
R1IN
R2IN
R1OUT
R2OUT
1
3
4
PWR-LED
2
4
6
8
10
12
14
16
18
20
LED060 3/RED
1
3
5
7
9
11
13
15
17
19
B1
R18
10k
T1103NE 12x12x4,3
5
3.3V
12
9
ST3232CDR(SO16)
R20
10k
R19
10k
3.3V
TXD
RXD
RXD
TXD
SCL
MISO1
SCK1
1
3
5
7
9
2
4
6
8
10
LED2
LED2
RXD
SDA
MOSI1
SSEL1
R43
22k
R47
1K
RST
ISP_E
D5
BAT54A
R44
1K
2
1
3.3V
PIO1_LOW
HN1x2
PIO3_LOW
HN1x2
3.3V
3.3V
8
44
C14
100nF
LPC-P11C24_rev_A
http://www.olimex.com/dev
100nF
5
41
C15
18pF
C16
18pF
6
7
Q1
12MHz/20pF
P3_0
P3_1
P3_2
P3_3
P2_0
P2_1
P2_2
P2_3
P2_6
P2_7
P2_8
P2_10
P2_11
CAN_MODE
SSEL1
SCK1
MISO1
MOSI1
SSEL1
SCK1
MISO1
MOSI1
VDD
VDD
C1
36
37
43
48
2
13
26
38
1
11
12
25
31
VSS
VSS
#RESET/PIO0_0
PIO0_1/CLKOUT/CT32B0_MAT2
PIO0_2/SSEL0/CT16B0_CAP0
PIO0_3
PIO0_4/SCL
PIO0_5/SDA
PIO0_6/SCK0
PIO0_7/#CTS
PIO0_8/MISO0/CT16B0_MAT0
PIO0_9/MOSI0/CT16B0_MAT1
SWCLK/PIO0_10/SCK0/CT16B0_MAT2
R/PIO0_11/AD0/CT32B0_MAT3
XTALIN
XTALOUT
PIO3_0/#DTR
PIO3_1/#DSR
PIO3_2/#DCD
PIO3_3/#RI
PIO2_0/#DTR/SSEL1
PIO2_1/#DSR/SCK1
PIO2_2/#DCD/MISO1
PIO2_3/#RI/MOSI1
PIO2_6
PIO2_7
PIO2_8
PIO2_10
PIO2_11/SCK0
R/PIO1_0/AD1/CT32B1_CAP0
R/PIO1_1/AD2/CT32B1_MAT0
R/PIO1_2/AD3/CT32B1_MAT1
SWDIO/PIO1_3/AD4/CT32B1_MAT2
PIO1_4/AD5/CT32B1_MAT3/WAKEUP
PIO1_5/#RTS/CT32B0_CAP0
PIO1_6/RXD/CT32B0_MAT0
PIO1_7/TXD/CT32B0_MAT1
PIO1_8/CT16B1_CAP0
PIO1_10/AD6/CT16B1_MAT1
PIO1_11/AD7
CANL
CANH
STB
VCC
VDD_CAN
GND
3
4
10
14
15
16
23
24
27
28
29
32
33
34
35
39
40
45
46
47
9
30
42
18
19
22
20
17
21
LPC11C24FBD48/301
2
1
R25
22k
U2
OLIMEX LTD BULGARIA
3.3V
R26
2K
R28
2K
R27
2K
P0_0
P0_1
P0_2
P0_3
P0_4
P0_5
P0_6
P0_7
P0_8
P0_9
P0_10
P0_11
RST
ISP_E
PIO3
SCL
SDA
B1
SWCLK
RST
SCL
SDA
SWCLK
P1_0
P1_1
P1_2
P1_3
P1_4
P1_5
P1_6
P1_7
P1_8
P1_10
P1_11
SWD
WAKE_UP
RXD
TXD
LED2
LED1
CANL
CANH
SWD
RXD
TXD
CANL
CANH
+5V
C13
100nF
CAN_MODE
SILENT/NORMAL
HN1x3
R13
2K
+5V
CAN-2
R3
62R
CAN-1
3
10 k
T3
DTC114YKA
2
C4 1nF
1
NA
C AN _ T
clos e
C24
1
2
3
33
47 k
T 1 1 0 7 A (6 x3 .8 x2 . 5 m m )
R49
3.3V
R34
1K
LED1
LED0603/GREEN
LED0603/ YELLOW
R45
1K
1
2
RST
RESET
100nF
R31
1K
BH10S
3.3V
R4
62R
CAN-3
TB3/5MM
SSEL1,SCK1,MISO1,MOSI1,SCL,SDA,RXD,TXD
Page 22 of 26
WAKE_UP
1K
C8
LEDS
3.3V
RST_E
R48 HN1x2
10k
T1103NE12x12x4,3
3.3V
R5
33k
UEXT
390/1%
PIO1_RS
HN1x2
2
1
DB9-female
R50
TXD
WAKE_UP
+5V_JTAG
R21
10k
100nF
1K
C7
RST
RST
C23
11
10
R11
B1
100nF
SWD
SWCLK
SWD
SWCLK
C22
100nF
R10
22k
R9
SWD
UEXT
C19
100nF
C20
100nF
C21
100nF
R8
22k
BH20S
15 U3PWR16
3.3V
3.3V
3.3V_1
OUT
ADJ/GND
R7
220/1%
GND30
GND18
3.3V
RST,SWC L K,SWO ,SW D
IN
BUTTONS
3.3V
VR1(3.3V)
LM1117IMPX-ADJ
ADJ/GND
1 0 u F/16 V/ta n t
7-9 VDC
YDJ1136
TRACE
DEBUG INTERFACE:
POWER SUPPLY
+5V
1 0 u F/6 .3 V
1N5819S
D6
1N5819S
2
VR2(5V)
LM1117IMPX-ADJ
4 7 0 u F/1 6 V
PWR
1
VIN_1
+
D4
5V_DIS
LED1
OLIMEX© 2012
LPC-P11C24 user's manual
8.2 Physical dimensions
Note that all dimensions are in inches.
The three highest elements on the board in order from the tallest to the shortest are: RS232
connector – 480mil; capacitor C12 – 460mil; Power jack – 420mil.
Page 23 of 26
OLIMEX© 2012
LPC-P11C24 user's manual
CHAPTER 9: REVISION HISTORY AND SUPPORT
9. Introduction to the chapter
In this chapter you will find the current and the previous version of the document you are reading.
Also the web-page for your device is listed. Be sure to check it after a purchase for the latest
available updates and examples.
9.1 Document revision
Revision
Changes
Modified Page#
A,
10.07.12
Initial Creation
B,
18.10.12
Added links to each entry in the index
table; Fixed and updated various links
4, 21, 25
C,
25.03.13
Fixed an error that indicates 6V as
sufficient supply voltage; Adjusted
formatting; Fixed various links;
7, 8, 12
All
9.2 Board revision
Revision
A
Notable Changes
Initial release of the board
Page 24 of 26
OLIMEX© 2012
LPC-P11C24 user's manual
9.3 Useful web links and purchase codes
The web page you can visit for more info on your device is
https://www.olimex.com/Products/ARM/NXP/LPC-P11C24/.
ORDER CODES:
LPC-P11C24 – LPC-P11C24 featuring LPC11C24 Cortex-M0 processor
The latest price list can be found at https://www.olimex.com/prices.
How to order?
You can order from our e-shop or via any of our distributors.
Check https://www.olimex.com/ for more info.
Page 25 of 26
OLIMEX© 2012
LPC-P11C24 user's manual
9.3 Product support
For product support, hardware information and error reports mail to: support@olimex.com. Note
that we are primarily a hardware company and our software support is limited.
Please consider reading the paragraph below about the warranty of Olimex products.
Warranty and returns:
Our boards have lifetime warranty against manufacturing defects and
components.
During development work it is not unlikely that you can burn your programmer
or development board. This is normal, we also do development work and we have
damaged A LOT of programmers and boards during our daily job so we know how it
works. If our board/programmer has worked fine then stopped, please check if
you didn't apply over voltage by mistake, or shorted something in your target
board where the programmer was connected etc. Sometimes boards might get
damaged by ESD shock voltage or if you spill coffee on them during your work
when they are powered.
Please note that warrany do not cover problems caused by unproper use, shorts,
over-voltages, ESD shock etc.
If the board has warranty label it should be not broken. Broken labels void
the warranty, same applies for boards modified by the customer, for instance
soldering additional components or removing components - such boards will be
not be a subject of our warranty.
If you are positive that the problem is due to manufacturing defect or
component you can return the board back to us for inspection.
When we receive the board we will check and if the problem is caused due to
our fault and we will repair/replace the faulty hardware free of charge,
otherwise we can quote price of the repair.
Note that all shippings back and forth have to be covered by the customer.
Before you ship anything back you need to ask for RMA. When you ship back
please attach to it your shipping address, phone, e-mail, RMA# and brief
description of the problem. All boards should be sent back in antistatic
package and well packed to prevent damages during the transport.
Page 26 of 26