EDP-CM-LPC1343 Command Module
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EDP-CM-LPC1343 Command Module
User Manual
Version 1.03
5th August 2010
EDP-CM-LPC1343 Command Module
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Contents
1. Introduction 3
2. Pin Allocation 4 2.1 Allocation of MCU pins to backplane functions ............................... 4 2.2 Resources Used/Available by LPC1343 ......................................... 6 2.3 Alphabetical Listing of MCU Pins .................................................... 7 2.4 Backplane - Base Board Signals .................................................... 8 2.5 Mapping Aid .................................................................................. 11
3. Solder Link Options 12
4. Zero Ohm Links 16
5. Software Support 17 5.1 RSEDP_Test_Suite ....................................................................... 17 5.2 MC1_Test_Suite ........................................................................... 17 5.3 MC2_Test_Suite ........................................................................... 18
EDP-CM-LPC1343 Command Module
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1. Introduction
The RS-EDP platform is a system, has been designed to utilise many different manufacturers’ microprocessors. To support NXP range or ARM/Cortex MCU’s a single Command Module (CM) has been designed to accommodate four different device types. These are LPC2368 (ARM7), LPC1768 (Cortex M3), LPC1343 (Cortex M3) and LPC1113 (Cortex M0). Each of the boards comes with its own suite of software to fully exercise the RS-EDP Application Modules and the peripherals available on the MCU device. In an RS-EDP system there is usually one Command Module / CPU Module (CM) and one or more Applications Modules (AM) plugged in to the Base Board (BB). These NXP modules have been designed as the Command Module for the system. The ‘Command Module’ in a system dictates whether the whole system is a 3.3V one or a 5.0V one. All of these modules use a 3.3V microprocessor and consequently the I/O is mostly 3.3V also. To tell the rest of the system the Command Module is a 3.3V one not a 5.0V one, the Vcc_CM line on the base board is connected to 3.3V by the tracking on the Command Module board. This Vcc_CM is used as a reference by the other modules, such as the analogue module, to limit the output voltage to 3.3V. The command voltage line is also used by the #RESET circuit, as the voltage reference to pull up to after the reset line has been asserted low. The RS-EDP-CM-NXP module maps the I/O of the MCU on the board to the backplane of the RS-EDP system. As there are quite a few dual function pins on the NXP processors and hence several link options have been made to accommodate the various options the user may wish to use. Extensive use of the I2C capability is used to communicate to the application modules in the system.
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2. Pin Allocation
2.1 Allocation of MCU pins to backplane functions
The CM has been mapped to the backplane to maximise the functionality of the system and the AMs. A document called a Pin Allocation spreadsheet exists which details the mapping of the pins to the backplane. The details of this mapping are detailed below. Below are detailed the pin number of the MCU, the pin name, a comment on its usage and the signals name to which it is allocated on the backplane. As the same PCB is used for variants of LPC processor some of the mapping may appear a little strange. For example this device has no CAN but is allocated some CAN resource on the backplane. This is because other NXP variants do have a CAN controller on board and the mapping is done to accommodate this other device.
LPC1343FBD48 Comment RS-EDP-BASE BOARD
Pin Name of function used on PIC Name
34 & 28 TDO/PIO1_1/AD2/CT32B1_MAT0 & PIO0_9/MOSI/CT16B0_MAT1/SWO JTAG interface on LPC module
32 TDI/PIO0_11/ADC0/CT32B0/MAT3 JTAG interface on LPC module
33 & 39 TMS/PIO1_0/AD1/CT32B1_CAP0 & SWDIO/PIO1_3/AD4/CT32B1_MAT2 JTAG interface on LPC module
35 TRST/PIO1_2/AD3/CT32B1_MAT1 JTAG interface on LPC module
29 SWCLK/PIO0_10/SCK/CT16B0_MAT2 JTAG interface on LPC module
40 PIO1_4/AD5/CT32B1_MAT3/WAKEUP 2 link options AN0
2 link options AN8
3 #RESET/PIO0_0 #RESIN
42 PIO1_11/AD7 2 link options AN4
2 link options AN12
6 XTALIN Xtal on module
7 XTALOUT Xtal on module
15 PIO0_4/SCL CNTRL_I2C_SCL
16 PIO0_5/SDA CNTRL_I2C_SDA
1 PIO2_6 EVG1_GPIO42
4 PIO0_1/CLKOUT/CT32B0_MAT2/USB_FTOGGLE 2 link options EVG0_GPIO40
2 Link options - User LED1
8 VDDIO 3.3V
20 USB_DP USB_DEV_D+
19 USB_DM USB_DEV_D-
5 VSSIO SGND
30 PIO1_10/AD6/CT16B1_MAT1 3 link options EVG5_GPIO50
3 link options EVG8_GPIO56
3 link options EVG0_GPIO40
36 PIO3_0 2 link options MOTORP0H
2 link options EVG9_GPIO57
37 PIO3_1 2 link options MOTORH0_ENC0
2 link options EVG10_GPIO58
38 PIO2_3/#RI 2 link options EMG_TRAP
2 link options EVG11_GPIO59
43 PIO3_2 2 link options MOTORP0L
2 link options EVG12_GPIO60
48 PIO3_3 2 link options MOTORH1_ENC1
2 link options EVG13_GPIO61
41 VSSIO SGND
44 VDDCORE 3.3V
45 PIO1_5/#RTS/CT32B0_CAP0 EVM5_GPIO47
10 PIO0_2/SSEL/CT16B0_CAP0 2 link options MOTORP2H
2 link options EVG17_GPIO65
27 PIO0_8/MISO/CT16B0_MAT0 2 link options MOTORP2L
2 link options EVG18_GPIO66
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2 PIO2_0/#DTR 2 link options GPIO0
2 link options EVG6_GPIO52
31 PIO2_11/SCK 2 link options GPIO1
2 link options EVG7_GPIO54
13 PIO2_1/#DSR 2 link options ASC1_TX_TTL_ASC0_DTR
2 link options CAN1_RX
26 PIO2_2/#DCD 2 link option EVG4_GPIO48
2 link option EVG19_GPIO67
25 PIO2_10 2 link option CPU_DAC01_GPIO19
2 link option EVG3_GPIO46
24 PIO2_9 2 link option CPU_DACO0_GPIO17
2 link option EVG2_GPIO44
23 PIO0_7/#CTS EVM9_GPIO55
22 PIO0_6/#USB_CONNECT/SCK 2 link options ASC1_RX_TTL
2 Link options EVM8_GPIO53
12 PIO2_8 2 link options ASC1_TX_TTL
2 Link options EVM7_GPIO51
21 PIO2_5 2 Link options EVM6_GPIO49
2 Link options GPIO2_MCIDAT0
9 PIO1_8/CT16B1_CAP0 2 Link options EVM4_GPIO45
2 Link options GPIO14_MCIPWR
18 PIO2_4 2 Link options EVM3_GPIO43
2 Link options GPIO12_MCICMD
11 PIO2_7 2 Link options EVM2_GPIO41_CAPADC
2 Link options GPIO10_MCICLK
17 PIO1_9/CT16B1_MAT0 3 link options GPIO9_I2S_RX_WS
3 link options EVM1_GPIO23
3 link options CPU_DACO0_GPIO17
14 PIO0_3/USB_VBUS 2 link option GPIO7_I2S_RX_CLK
2 Link options EVM0_GPIO21
47 PIO1_7/TXD/CT32B0_MAT1 3 Link options ASC0_TX_TTL
3 link options AN7
3 link options AN15
46 PIO1_6/RXD/CT32B0_MAT0 3 Link options ASC0_RX_TTL
3 link options AN6
3 link options AN14
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2.2 Resources Used/Available by LPC1343
Resources Used/Available
3.3V
SGND
#RESIN
AN0
AN4
AN6
AN7
AN8
AN12
AN14
AN15
ASC0_TX_TTL
ASC0_RX_TTL
ASC1_TX_TTL
ASC1_RX_TTL
ASC1_TX_TTL_ASC0_DTR
CAN1_RX
CNTRL_I2C_SCL
CNTRL_I2C_SDA
CPU_DACO0_GPIO17
CPU_DAC01_GPIO19
EVG0_GPIO40
EVG1_GPIO42
EVG2_GPIO44
EVG3_GPIO46
EVG4_GPIO48
EVG5_GPIO50
EVG6_GPIO52
EVG7_GPIO54
EVG8_GPIO56
EVG9_GPIO57
EVG10_GPIO58
EVG11_GPIO59
EVG12_GPIO60
EVG13_GPIO61
EVG17_GPIO65
EVG18_GPIO66
EVG19_GPIO67
EVM0_GPIO21
EVM1_GPIO23
EVM2_GPIO41_CAPADC
EVM3_GPIO43
EVM4_GPIO45
EVM5_GPIO47
EVM6_GPIO49
EVM7_GPIO51
EVM8_GPIO53
EVM9_GPIO55
GPIO0
GPIO1
GPIO2_MCIDAT0
GPIO7_I2S_RX_CLK
GPIO9_I2S_RX_WS
GPIO10_MCICLK
GPIO12_MCICMD
GPIO14_MCIPWR
MOTORP0H
MOTORP0L
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MOTORH0_ENC0
MOTORH1_ENC1
MOTORP2H
MOTORP2L
EMG_TRAP
USB_DEV_D+
USB_DEV_D-
Local User LED1
2.3 Alphabetical Listing of MCU Pins
Pin Alphabetic Listing of Available I/O
3 #RESET/PIO0_0
4 PIO0_1/CLKOUT/CT32B0_MAT2/USB_FTOGGLE
10 PIO0_2/SSEL/CT16B0_CAP0
14 PIO0_3/USB_VBUS
15 PIO0_4/SCL
16 PIO0_5/SDA
22 PIO0_6/#USB_CONNECT/SCK
23 PIO0_7/#CTS
27 PIO0_8/MISO/CT16B0_MAT0
40 PIO1_4/AD5/CT32B1_MAT3/WAKEUP
45 PIO1_5/#RTS/CT32B0_CAP0
46 PIO1_6/RXD/CT32B0_MAT0
47 PIO1_7/TXD/CT32B0_MAT1
9 PIO1_8/CT16B1_CAP0
17 PIO1_9/CT16B1_MAT0
30 PIO1_10/AD6/CT16B1_MAT1
42 PIO1_11/AD7
2 PIO2_0/#DTR
13 PIO2_1/#DSR
26 PIO2_2/#DCD
38 PIO2_3/#RI
18 PIO2_4
21 PIO2_5
1 PIO2_6
11 PIO2_7
12 PIO2_8
24 PIO2_9
25 PIO2_10
31 PIO2_11/SCK
36 PIO3_0
37 PIO3_1
43 PIO3_2
48 PIO3_3
29 SWCLK/PIO0_10/SCK/CT16B0_MAT2
32 TDI/PIO0_11/ADC0/CT32B0/MAT3
34 & 28 TDO/PIO1_1/AD2/CT32B1_MAT0 & PIO0_9/MOSI/CT16B0_MAT1/SWO
33 & 39 TMS/PIO1_0/AD1/CT32B1_CAP0 & SWDIO/PIO1_3/AD4/CT32B1_MAT2
35 TRST/PIO1_2/AD3/CT32B1_MAT1
19 USB_DM
20 USB_DP
44 VDDCORE
8 VDDIO
5 VSSIO
41 VSSIO
6 XTALIN
7 XTALOUT
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2.4 Backplane - Base Board Signals
Base Board Signal Name EDPCON1 EDPCON2 Break Out Connector
#CS0 53 & 54
#CS1 55 & 56
#CS2 57 & 58
#CS3 59 & 60
#PSEN 51 & 52
#RD 45 & 46
#RESIN 1 & 2 P603 26
#RESOUT 3 & 4 P603 27
#WR 47 & 48
#WRH 49 & 50
12V 133 P603 47
12V 134 P603 47
12V 135 P603 47
12V 136 P603 47
12V GND 137 P603 48
12V GND 138 P603 48
12V GND 139 P603 48
12V GND 140 P603 48
3.3V 127 P603 44
3.3V 128 P603 44
3.3V 95 & 96 P603 44
3V BAT 124 P603 42
5.0V 129 P603 45
5.0V 130 P603 45
5.0V 97 & 98 P603 45
A0_AD0 41 & 42
A1_AD1 39 & 40
A2_AD2 37 & 38
A3_AD3 35 & 36
A4_AD4 33 & 34
A5_AD5 31 & 32
A6_AD6 29 & 30
A7_AD7 27 & 28
A8_AD8 25 & 26
A9_AD9 23 & 24
A10_AD10 21 & 22
A11_AD11 19 & 20
A12_AD12 17 & 18
A13_AD13 15 & 16
A14_AD14 13 & 14
A15_AD15 11 & 12
ALE 43 & 44
AN_REF 1 P601 6
AN0 3 P603 2
AN1 4 P603 6
AN2 5 P603 1
AN3 6 P603 5
AN4 7 P602 2
AN5 8 P602 4
AN6 9 P602 1
AN7 10 P602 3
AN8 11 P601 2
AN9 12 P601 4
AN10 13 P601 1
AN11 14 P601 3
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AN12 15 P603 4
AN13 16 P602 6
AN14 17 P603 3
AN15 18 P602 5
ASC0_RX_TTL 89 P602 30
ASC0_TX_TTL 91 P602 31
ASC1_RX_TTL 93 P602 32
ASC1_RX_TTL_ASC0_DSR 99 P602 35
ASC1_TX_TTL 95 P602 33
ASC1_TX_TTL_ASC0_DTR 97 P602 34
CAN0_RX 61 & 62
CAN0_TX 63 &64
CAN1_RX 121 P602 46
CAN1_TX 123 P602 47
CANH0 89 & 90 P603 40
CANL0 91 & 92 P603 41
CNTRL_I2C_SCL 79 & 80 P603 35
CNTRL_I2C_SDA 77 & 78 P603 34
CNTRL_SPI_#CS_NSS 75 & 76 P603 33
CNTRL_SPI_CLK 69 & 70 P603 30
CNTRL_SPI_MRST 71 & 72 P603 31
CNTRL_SPI_MTSR 73 & 74 P603 32
CPU_DACO0_GPIO17 38 P603 7
CPU_DACO1_GPIO19 40 P601 7
EMG_TRAP 114 P601 44
ETH_LNK_LED 111 P602 41
ETH_RX- 109 P602 40
ETH_RX_LED 113 P602 42
ETH_RX+ 107 P602 39
ETH_SPD_LED 115 P602 43
ETH_TX- 105 P602 38
ETH_TX+ 103 P602 37
EVG0_GPIO40 61 P602 16
EVG1_GPIO42 63 P602 17
EVG2_GPIO44 65 P602 18
EVG3_GPIO46 67 P602 19
EVG4_GPIO48 69 P602 20
EVG5_GPIO50 71 P602 21
EVG6_GPIO52 73 P602 22
EVG7_GPIO54 75 P602 23
EVG8_GPIO56 77 P602 24
EVG9_GPIO57 78 P601 26
EVG10_GPIO58 79 P602 25
EVG11_GPIO59 80 P601 27
EVG12_GPIO60 81 P602 26
EVG13_GPIO61 82 P601 28
EVG14_GPIO62 83 P602 27
EVG15_GPIO63 84 P601 29
EVG16_GPIO64 85 P602 28
EVG17_GPIO65 86 P601 30
EVG18_GPIO66 87 P602 29
EVG19_GPIO67 88 P601 31
EVG20_GPIO69_ASCO_RTS 92 P601 33
EVM0_GPIO21 42 P601 8
EVM1_GPIO23 44 P601 9
EVM2_GPIO41_CAPADC 62 P601 18
EVM3_GPIO43 64 P601 19
EVM4_GPIO45 66 P601 20
EVM5_GPIO47 68 P601 21
EVM6_GPIO49 70 P601 22
EVM7_GPIO51 72 P601 23
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EVM8_GPIO53 74 P601 24
EVM9_GPIO55 76 P601 25
EVM10_GPIO68_ASCO_CTS 90 P601 32
GPIO0 21 P603 13
GPIO1 22 P603 15
GPIO2_MCI_DAT0 23 P603 14
GPIO3 24 P603 16
GPIO4_MCI_DAT1 25 P603 17
GPIO5_I2S_TX_WS 26 P603 19
GPIO6_MCI_DAT2 27 P603 18
GPIO7_I2S_RX_CLK 28 P603 20
GPIO8_MCI_DAT3 29 P603 22
GPIO9_I2S_RX_WS 30 P603 21
GPIO10_MCI_CLK 31 P603 23
GPIO11_I2S_RX_SDA 32 P603 24
GPIO12_MCI_CMD 33
GPIO13_I2S_TX_CLK 34 P603 25
GPIO14_MCI_PWR 35 P603 12
GPIO15_I2S_TX_SDA 36 P603 8
GPIO24_AD7 45 P602 8
GPIO25_AD15 46 P601 10
GPIO26_AD6 47 P602 9
GPIO27_AD14 48 P601 11
GPIO28_AD5 49 P602 10
GPIO29_AD13 50 P601 12
GPIO30_AD4 51 P602 11
GPIO31_ADI2 52 P601 13
GPIO32_AD3 53 P602 12
GPIO33_AD11 54 P601 14
GPIO34_AD2 55 P602 13
GPIO35_AD10 56 P601 15
GPIO36_AD1 57 P602 14
GPIO37_AD9 58 P601 16
GPIO38_AD0 59 P602 15
GPIO39_AD8 60 P601 17
I2C_GEN0_SCL 7 & 8 P603 29
I2C_GEN0_SDA 5 & 6 P603 28
I2C_GEN1_SCL 119 P602 45
I2C_GEN1_SDA 117 P602 44
IRQ_GPIO16_CNTRL_I2C_INT 37 P603 11
IRQ_GPIO18_I2C_GEN0_INT 39 P603 10
IRQ_GPIO20_I2C_GEN1_INT 41 P603 9
IRQ_GPIO22_I2C_INT 43 P602 7
MOTOR_TCO_FB 122 P601 48
MOTORH0_ENC0 116 P601 45
MOTORH1_ENC1 118 P601 46
MOTORH2_ENC2 120 P601 47
MOTORP0H 102 P601 38
MOTORP0L 100 P601 37
MOTORP1H 106 P601 40
MOTORP1L 104 P601 39
MOTORP2H 110 P601 42
MOTORP2L 108 P601 41
MOTORPWM 112 P601 43
SGND 131 P603 46
SGND 132 P603 46
SGND 9 & 10 P603 46
SGND 99 & 100 P603 46
SPI_SSC_#CS_NSS 101 P602 36
SPI_SSC_CLK 98 P601 36
SPI_SSC_MRST_MISO 94 P601 34
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SPI_SSC_MTSR_MOSI 96 P601 35
USB_DEBUG_D- 67 & 68
USB_DEBUG_D+ 65 & 66
USB_DEV_D- 87 & 88 P603 39
USB_DEV_D+ 85 & 86 P603 38
USB_HOST_D- 83 & 84 P603 37
USB_HOST_D+ 81 & 82 P603 36
VAGND 19 P601 5
VAGND 20 P601 5
Vcc_CM 125 P603 43
Vcc_CM 126 P603 43
Vcc_CM 93 & 94 P603 43
Note: This spread sheet is derived from the Pin Allocation Spreadsheet for this CPU Module. The user manual for the base board also contains details of the back plane signals and the pin outs.
2.5 Mapping Aid
AN0
AN8JP403
AN4
AN12
JP405
EVG1_GPIO42
EVG0_GPIO40
User LED D401
MOTORP0H
EVG9_GPIO57
MOTORH0_ENC0
EVG10_GPIO58
JP406
JP407
JP409
EMG_TRAP
EVG11_GPIO59
MOTORP0L
EVG12_GPIO60
MOTORH1_ENC1
EVG13_GPIO61
MOTORP2H
EVG17_GPIO65
MOTORP2L
EVG18_GPIO66
JP412
JP417
JP418
JP411
JP410
JP413
EVM5_GPIO47
GPIO0
EVG6_GPIO52
GPIO1
EVG7_GPIO54
LPC1343 Command Module
ASC0_RX_TTL
AN6
AN14
JP440
ASC0_TX_TTL
AN7
AN15
JP439
EVG4_GPIO48
EVG19_GPIO67
CPU_DAC01_GPIO19
EVG3_GPIO46
CPU_DACO0_GPIO17
EVG2_GPIO44
GPIO7_I2S_RX_CLK
EVM0_GPIO21
JP422
JP421
JP428
JP429
JP430
JP438
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
2
21
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
3
4
4
3
40 PIO1_4/AD5/CT32B1_MAT3/WAKEUP
42 PIO1_11/AD7
46 PIO1_6/RXD/CT32B0_MAT0
47 PIO1_7/TXD/CT32B0_MAT1
36 PIO3_0
43 PIO3_2
10 PIO0_2/SSEL/CT16B0_CAP0
27 PIO0_8/MISO/CT16B0_MAT0
38 PIO2_3/#RI
37 PIO3_1
48 PIO3_3
4 PIO0_1/CLKOUT/CT32B0_MAT2/USB_FTOGGLE
1 PIO2_6
24 PIO2_9
25 PIO2_10
26 PIO2_2/#DCD
30 PIO1_10/AD6/CT16B1_MAT1
2 PIO2_0/#DTR
31 PIO2_11/SCK
14 PIO0_3/USB_VBUS
17 PIO1_9/CT16B1_MAT0
45 PIO1_5/#RTS/CT32B0_CAP0
CNTRL_I2C_SCL
CNTRL_I2C_SDA
15 PIO0_4/SCL
16 PIO0_5/SDA
USB_DEV_D+
USB_DEV_D-
20 USB_DP
19 USB_DM
ASC1_TX_TTL_ASC0_DTR
CAN1_RX
JP4262
1
313 PIO2_1/#DSR
ASC1_RX_TTL
EVM8_GPIO53
ASC1_TX_TTL
EVM7_GPIO51
JP431
JP4322
2
1
1
3
322 PIO0_6/#USB_CONNECT/SCK
12 PIO2_8
#RESET
SGND
VAGND
AN_REF3.3V
R102
R101
VCC_CM3.3V
EVM9_GPIO5523 PIO0_7/#CTS
21 PIO2_52
3
23
EVM6_GPIO49
GPIO2_MCIDAT0
9 PIO1_8/CT16B1_CAP0EVM4_GPIO45
GPIO14_MCIPWR
18 PIO2_4EVM3_GPIO43
GPIO12_MCICMD2
3
11 PIO2_72
3
JP4331
1
1
1
JP434
JP435
JP436EVM2_GPIO41_CAPADC
GPIO10_MCICLK
EVG5_GPIO50
EVG8_GPIO56
EVG0_GPIO40
1
4
GPIO9_I2S_RX_WS
EVM1_GPIO23
CPU_DACO0_GPIO17
2
3
4
JP437
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3. Solder Link Options
Many of the options for the Command Module board require a solder bridge to be made or a track to be cut. The CM board has been designed to be configured in the most popular setting by using a small track between the options, which will require cutting with a sharp knife before making the alternate connection options. A documents called a Mapping Aid exist to help explain the resources available on the MCU and how it can interface with the other modules within the system. The options we have are as follows: VDDA JP201 (1-2) VDDA on the MCU is connected to 3.3V JP201 (2-3) VDDA on the MCU is connected to AN_REF on
the backplane VDDA is the power supply voltage to the on board ADC circuitry. Using a lower noise AN_REF signal will yield better results. The AN_REF signal is usually provided by a stable voltage reference source present on the Analogue Module. Vref JP202 (1-2) VREF on the MCU is connected to 3.3V JP202 (2-3) VREF on the MCU is connected to AN_REF on the
backplane This is the voltage reference that is used to measure the analogue input voltages against. An AN_REF signal will provide better results than the 3.3V signal. The AN_REF signal is usually provided by a stable voltage reference source present on the Analogue Module. VBAT JP203 (1-2) VBAT on the MCU is connected to 3.3V JP203 (2-3) VREF on the MCU is connected to 3V3_BATT on
the backplane This option is irrelevant as the LPC1343 does not a VBAT terminal. This jumper is provided for the LPC1768/LPC2368 variants of the Command Module.
Port PI00 Options PIO0_1/CLKOUT/CT32B0_MAT2/USB_FTOGGLE
JP406 (2-1) EVG0_GPIO40
JP406 (2-3) (Default) User LED1 Selecting JP406 position 2-3 allows use of the on board user led LED1 (D401). Note: EVG0_GPIO40 is also available on JP407. (PIO1_10) PIO0_2/SSEL/CT16B0_CAP0
JP417 (2-1) MOTORP2H
JP417 (2-3) (Default) EVG17_GPIO65 PIO0_3/USB_VBUS
JP438 (2-3) GPIO7_I2S_RX_CLK
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JP438 (2-1) (Default) EVM0_GPIO21
PIO0_6/#USB_CONNECT/SCK
JP431 (2-3) ASC1_RX_TTL
JP431 (2-1) (Default) EVM8_GPIO53 PIO0_8/MISO/CT16B0_MAT0
JP418 (2-1) MOTORP2L
JP418 (2-3) (Default) EVG18_GPIO66 Port PIO1 Options PIO1_4/AD5/CT32B1_MAT3/WAKEUP
JP403 (2-1) (Default) AN0
JP403 (2-3) AN8 PIO1_6/RXD/CT32B0_MAT0
JP440 (2-1) (Default) ASC0_RX_TTL
JP440 (2-4) AN6
JP440 (2-3) AN14 Position 2-1 is the main RS232/UART channel. Incoming logic level receive traffic is routed from the Communication Module. PIO1_7/TXD/CT32B0_MAT1
JP439 (2-1) (Default) ASC0_TX_TTL
JP439 (2-4) AN7
JP439 (2-3) AN15 Position 2-1 is the main RS232/UART channel. Outgoing logic level transmit traffic is routed to the Communication Module where it is translated into RS232/RS485 logic levels. PIO1_8/CT16B1_CAP0
JP434 (2-3) GPIO14_MCI_PWR
JP434 (2-1) (Default) EVM4_GPIO45 PIO1_9/CT16B1_MAT0
JP437 (2-3) GPIO9_I2S_RX_WS
JP437 (2-1) (Default) EVM1_GPIO23
JP437 (2-4) CPU_DACO0_GPIO17 Note: CPU_DACO0_GPIO17 is also available on JP430 (PIO2_9) PIO1_10/AD6/CT16B1_MAT1
JP407 (2-1) (Default) EVG5_GPIO50
JP407 (2-3) EVG8_GPIO56
JP407 (2-4) EVG0_GPIO40 Note: EVG0_GPIO40 is also available on JP406. (PIO0_1) PIO1_11/AD7
JP405 (2-1) (Default) AN4
JP405 (2-3) AN12
EDP-CM-LPC1343 Command Module
Electrocomponents plc Page 14
Port PIO2 Options PIO2_0/#DTR
JP421 (2-1) (Default) GPIO0
JP421 (2-3) EVG6_GPIO52 PIO2_1/#DSR
JP426 (2-1) (Default) ASC1_TX_TTL_ASC0_DTR
JP426 (2-3) CAN1_RX PIO2_2/#DCD
JP428 (2-1) (Default) EVG4_GPIO48
JP428 (2-3) EVG19_GPIO67 PIO2_3/#RI
JP411 (2-1) EMG_TRAP
JP411 (2-3) (Default) EVG11_GPIO59 PIO2_4
JP435 (2-3) GPIO12_MCI_CMD
JP435 (2-1) (Default) EVM3_GPIO43
PIO2_5
JP433 (2-3) GPIO2_MCI_DAT0
JP433 (2-1) (Default) EVM6_GPIO49
PIO2_7
JP436 (2-3) GPIO10_MCI_CLK
JP436 (2-1) (Default) EVM2_GPIO41_CAPADC
PIO2_8
JP432 (2-3) ASC1_TX_TTL
JP432 (2-1) (Default) EVM7_GPIO51 PIO2_9
JP430 (2-3) CPU_DACO0_GPIO17
JP430 (2-1) (Default) EVG2_GPIO44 Note: CPU_DACO0_GPIO17 is also available on JP437 (PIO1_9) PIO2_10
JP429 (2-3) CPU_DAC01_GPIO19
JP429 (2-1) (Default) EVG3_GPIO46 PIO2_11/SCK
JP422 (2-1) (Default) GPIO1
EDP-CM-LPC1343 Command Module
Electrocomponents plc Page 15
JP422 (2-3) EVG7_GPIO54 Port PIO3 Options PIO3_0
JP409 (2-1) MOTORP0H
JP409 (2-3) (Default) EVG9_GPIO57 PIO3_1
JP410 (2-1) MOTORH0_ENC0
JP410 (2-3) (Default) EVG10_GPIO58 PIO3_2
JP412 (2-1) MOTORP0L
JP412 (2-3) (Default) EVG12_GPIO60 PIO3_3
JP413 (2-1) MOTORH1_ENC1
JP413 (2-3) (Default) EVG13_GPIO61 Not Connected Options As the circuit board for the LPC1343 is also used for higher pin count MCU such as LPC2368 and LPC1768, there are some configurations options that are not used. These are shown on the circuit schematic but do not have any relevance for this LPC1343 module as the pins are not connected. These jumper options are detailed below.
JP401 (2-1) (Default) AN2
JP401 (2-3) AN10
JP402 (2-1) (Default) AN1
JP402 (2-3) AN9
JP404 (2-1) (Default) AN5
JP404 (2-3) AN13
JP408 (2-1) (Default) AN3
JP408 (2-4) AN11
JP408 (2-3) CPU_DACO0_GPIO17
JP414 (2-1) MOTORH2_ENC2
JP414 (2-3) (Default) EVG14_GPIO62
EDP-CM-LPC1343 Command Module
Electrocomponents plc Page 16
JP415 (2-1) MOTORP1H
JP415 (2-3) (Default) EVG15_GPIO63
JP416 (2-1) MOTORP1L
JP416 (2-3) (Default) EVG16_GPIO64
JP419 (2-1) CAN0_TX
JP419 (2-4) (Default) CAN0_TX_LOCAL
JP419 (2-3) I2C_GEN0_SDA
JP420 (2-1) CAN0_RX
JP420 (2-4) (Default) CAN0_RX_LOCAL
JP420 (2-3) I2C_GEN0_SCL
JP423 (2-1) (Default) IRQ_GPIO16_CNTRL_I2C_INT
JP423 (2-3) IRQ_GPIO18_I2C_GEN0_INT
JP424 (2-1) (Default) ASC1_RX_TTL
JP424 (2-3) EVM10_GPIO68_ASCO_CTS
JP425 (2-1) (Default) ASC1_TX_TTL
JP425 (2-3) CAN1_TX
JP427 (2-1) MOTOR_TCO_FB
JP427 (2-3) (Default) User LED0
4. Zero Ohm Links
CAN Load Resistor JP501 This link when inserted includes a 120 ohm resistor across CANH0 and CANL0. The
default is connected. This option is irrelevant as the LPC1343 does not a CAN peripheral. This jumper is provided for the LPC1768/LPC2368 variants of the Command Module, which have a CAN transceiver fitted. AN_REF R101 This zero ohm link when inserted provides a 3.3V reference for the EDP platform.
The 3.3V used is the local supply voltage derived from a local voltage regulator. This link should be used in the absence of a 3.3V voltage reference voltage provided by the Analogue Module when fitted. The default position is not connected.
AGND & VAGND R102 This link when inserted provides a way of connecting the VAGND to the SGND. This
is the default position. The two grounds alternatively can be connected to each other on the analogue module.
EDP-CM-LPC1343 Command Module
Electrocomponents plc Page 17
5. Software Support
The NXP Command Module for the RS-EDP platform is supported by all of the necessary software drivers to make driving of the platform very easy. All the low level support for the devices controlled by I2C for example have been written, as well as a test menu to exercise each of the modules independently of the others. This therefore provides working example of the code which will allow students and users to cut and paste various sections into their own applications. Each Applications Module has its own collection of header files, which provides the support for the functions that control it. Each module has its own set of high level functions that can be called to operate and control the hardware. This makes life a lot easier for the user, who can then spend most of his time working at the higher level application layer. The software has been packed up as several ZIP file which can be downloaded and unpacked. Most of the projects have been written for the Keil uVision environment. The majority of the applications written use the serial comm. channel ASC0 for outputting data to a terminal emulator. With this in mind a serial terminal emulation program should be used to read traffic outputted from the RS-EDP platform. Hyper Terminal is included in windows as part of the Windows Operating system but this does not work reliability. With this in mind it may be worth looking at other terminal emulator especially if they are to be used with USB-RS232 converters. The terminal emulator should be set up for 115,200 baud 8 data bits no stop bit no parity No flow control The default jumper options for JP439 and JP430 should be left in place to ensure serial traffic is routed to the communication module. Always check the software to see if the baud rate has been changed. Some of the provided software includes...
5.1 RSEDP_Test_Suite
This software exercises the NXP LPC1343 MCU peripherals including the on board ADC, PWM output, input capture, I2C, and I/O. The software also allows you to exercise the basic Application Modules, which are the Communication Module, the Digital I/O Module, and the Analogue Module. A suite of drivers and test menus are provided to fully exercise all the hardware on these boards.
5.2 MC1_Test_Suite
This is similar to the RSEDP_Test_Suite, but the test menus provided are for the MC1 Brushed DC Motor Drive Application Module. The motors are nominally 12V brushed DC motors running in a full H bridge configuration. The test suite allows you to accelerate the motor, change its direction, turn the brake on and off, as well as allowing the monitoring of motor current, DC link voltage and tacho feedback signals. The MC1 motor drive module also has many external inputs for limit switch detection and conditioning of motor related stimuli. The provided software library will therefore allow you to fully exercise your motor.
EDP-CM-LPC1343 Command Module
Electrocomponents plc Page 18
5.3 MC2_Test_Suite
This is similar to the MC1 test suite but for brushless DC/AC motors. The software assumes you have an MC2 motor drive module fitted, and you want to communicate to it via I2C packets. This set of software therefore allows you communicate with the MC2 motor drive module across the I2C backplane network, present in the RSEDP system. You can have up to three MC2 motor drives fitted and this suite of software allows you to communicate with all of them.
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
D D
C C
B B
A A
1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 4041 4243 4445 4647 4849 5051 5253 5455 5657 5859 6061 6263 6465 6667 6869 7071 7273 7475 7677 7879 8081 8283 8485 8687 8889 9091 9293 9495 9697 9899 100101 102103 104105 106107 108109 110111 112113 114115 116117 118119 120121 122123 124125 126127 128129 130131 132133 134135 136137 138139 140
P101
Tyco Amp 140 Way
1 23 45 67 89 1011 1213 1415 1617 1819 2021 2223 2425 2627 2829 3031 3233 3435 3637 3839 4041 4243 4445 4647 4849 5051 5253 5455 5657 5859 6061 6263 6465 6667 6869 7071 7273 7475 7677 7879 8081 8283 8485 8687 8889 9091 9293 9495 9697 9899 100
P102
Tyco Amp 100 Way
AN_REFAN0 AN1AN2 AN3AN4 AN5AN6 AN7AN8 AN9AN10 AN11AN12 AN13AN14 AN15
GPIO0 GPIO1GPIO3GPIO2_MCIDAT0
GPIO4_MCIDAT1GPIO6_MCIDAT2GPIO8_MCIDAT3GPIO10_MCICLKGPIO12_MCICMDGPIO14_MCIPWR
GPIO5_I2STX_WSGPIO7_I2SRX_CLKGPIO9_I2SRX_WS
GPIO11_I2SRX_SDAGPIO13_I2STX_CLKGPIO15_I2STX_SDA
IRQ_GPIO16_CNTRL I2C INTIRQ_GPIO18_I2C GEN0 INT CPU DACO1_GPIO19IRQ_GPIO20_I2C GEN1 INT EVM0_GPIO21IRQ_GPIO22_I2C INT
CPU DACO0_GPIO17
EVM1_GPIO23GPIO24_AD7
GPIO39_AD8GPIO37_AD9GPIO35_AD10GPIO33_AD11GPIO31_AD12GPIO29_AD13GPIO27_AD14GPIO25_AD15
GPIO38_AD0GPIO36_AD1GPIO34_AD2GPIO32_AD3GPIO30_AD4GPIO28_AD5GPIO26_AD6
EVG0_GPIO40 EVM2_GPIO41_CAPADCEVG1_GPIO42 EVM3_GPIO43EVG2_GPIO44 EVM4_GPIO45EVG3_GPIO46 EVM5_GPIO47EVG4_GPIO48 EVM6_GPIO49EVG5_GPIO50 EVM7_GPIO51EVG6_GPIO52 EVM8_GPIO53EVG7_GPIO54 EVM9_GPIO55EVG8_GPIO56 EVG9_GPIO57EVG10_GPIO58 EVG11_GPIO59EVG12_GPIO60 EVG13_GPIO61EVG14_GPIO62 EVG15_GPIO63EVG16_GPIO64 EVG17_GPIO65EVG18_GPIO66 EVG19_GPIO67
EVM10_GPIO68_ASC0 CTSEVG20_GPIO69_ASC0 RTS
ASC1 TX TTL_ASC0 DTRASC1 RX TTL_ASC0 DSR
SPI_SSC MRST_MISOSPI_SSC MTSR_MOSI
SPI_SSC CLK
SPI_SSC #CS_NSSMOTOR P0LMOTOR P0HMOTOR P1LMOTOR P1HMOTOR P2LMOTOR P2HMOTOR PWMEMG TRP
MOTOR H0_ENC0MOTOR H1_ENC1MOTOR H2_ENC2MOTOR TCO FB
ETH TX_PETH TX_NETH RX_PETH RX_NETH LNK LEDETH RX LEDETH SPD LED
I2C GEN1 SDAI2C GEN1 SCL
#RESIN#RESOUTI2C GEN0 SDAI2C GEN0 SCL
A15_AD15
A0_AD0A1_AD1A2_AD2A3_AD3A4_AD4A5_AD5A6_AD6A7_AD7A8_AD8A9_AD9A10_AD10A11_AD11A12_AD12A13_AD13A14_AD14
ALE#RD#WR#WRH#PSEN#CS0#CS1#CS2#CS3
USB DEBUG D+USB DEBUG D-CNTRL SPI CLKCNTRL SPI MRSTCNTRL SPI MTSRCNTRL SPI #CS_NSSCNTRL I2C SDACNTRL I2C SCLUSB HOST D+USB HOST D-
USB DEV D-USB DEV D+
CANH0CANL0
+5V +5V+3V3+3V3+3V3 +3V3
+5V +5V
+12V+12V
+12V+12V
SGNDSGND SGND SGND
SGNDSGND
12VGND12VGND 12VGND
12VGND
VAGNDVAGND
Module Position 1
EDPCON1 IO Connector
EDPCON2 Bus/Control Connector
+3V3BAT+3V3+3V3 +3V3 +3V3(VCC_CM)(VCC_CM) (VCC_CM)(VCC_CM)
Title:
Size: Number: Revision:
Date:File:
Module Connectors
A3 EDP-CM-LPCx B19/03/2010D:\PCB Designs\DXP\EDP-CM-LPCx\Rev B\Module Connectors.SchDoc
Hitex (UK) Ltd.Sir William Lyons RoadUniversity of Warwick Science ParkCoventry
Sheet1 of 5Author: A.Davison
Checked By:
Approved By:(c) Hitex (UK) Ltd.
CAN1 RXCAN1 TX
R102
0RVAGNDSGND
R101
0RAN_REF
+3V3
ETHERNET..
ASC0 TX TTLASC0 RX TTL
CAN0 RXCAN0 TX
ASC1 RX TTLASC1 TX TTL
PIP10101 PIP10102
PIP10103 PIP10104
PIP10105 PIP10106
PIP10107 PIP10108
PIP10109 PIP101010
PIP101011 PIP101012
PIP101013 PIP101014
PIP101015 PIP101016
PIP101017 PIP101018
PIP101019 PIP101020
PIP101021 PIP101022
PIP101023 PIP101024
PIP101025 PIP101026
PIP101027 PIP101028
PIP101029 PIP101030
PIP101031 PIP101032
PIP101033 PIP101034
PIP101035 PIP101036
PIP101037 PIP101038
PIP101039 PIP101040
PIP101041 PIP101042
PIP101043 PIP101044
PIP101045 PIP101046
PIP101047 PIP101048
PIP101049 PIP101050
PIP101051 PIP101052
PIP101053 PIP101054
PIP101055 PIP101056
PIP101057 PIP101058
PIP101059 PIP101060
PIP101061 PIP101062
PIP101063 PIP101064
PIP101065 PIP101066
PIP101067 PIP101068
PIP101069 PIP101070
PIP101071 PIP101072
PIP101073 PIP101074
PIP101075 PIP101076
PIP101077 PIP101078
PIP101079 PIP101080
PIP101081 PIP101082
PIP101083 PIP101084
PIP101085 PIP101086
PIP101087 PIP101088
PIP101089 PIP101090
PIP101091 PIP101092
PIP101093 PIP101094
PIP101095 PIP101096
PIP101097 PIP101098
PIP101099 PIP1010100
PIP1010101 PIP1010102
PIP1010103 PIP1010104
PIP1010105 PIP1010106
PIP1010107 PIP1010108
PIP1010109 PIP1010110
PIP1010111 PIP1010112
PIP1010113 PIP1010114
PIP1010115 PIP1010116
PIP1010117 PIP1010118
PIP1010119 PIP1010120
PIP1010121 PIP1010122
PIP1010123 PIP1010124
PIP1010125 PIP1010126
PIP1010127 PIP1010128
PIP1010129 PIP1010130
PIP1010131 PIP1010132
PIP1010133 PIP1010134
PIP1010135 PIP1010136
PIP1010137 PIP1010138
PIP1010139 PIP1010140
COP101
PIP10201 PIP10202
PIP10203 PIP10204
PIP10205 PIP10206
PIP10207 PIP10208
PIP10209 PIP102010
PIP102011 PIP102012
PIP102013 PIP102014
PIP102015 PIP102016
PIP102017 PIP102018
PIP102019 PIP102020
PIP102021 PIP102022
PIP102023 PIP102024
PIP102025 PIP102026
PIP102027 PIP102028
PIP102029 PIP102030
PIP102031 PIP102032
PIP102033 PIP102034
PIP102035 PIP102036
PIP102037 PIP102038
PIP102039 PIP102040
PIP102041 PIP102042
PIP102043 PIP102044
PIP102045 PIP102046
PIP102047 PIP102048
PIP102049 PIP102050
PIP102051 PIP102052
PIP102053 PIP102054
PIP102055 PIP102056
PIP102057 PIP102058
PIP102059 PIP102060
PIP102061 PIP102062
PIP102063 PIP102064
PIP102065 PIP102066
PIP102067 PIP102068
PIP102069 PIP102070
PIP102071 PIP102072
PIP102073 PIP102074
PIP102075 PIP102076
PIP102077 PIP102078
PIP102079 PIP102080
PIP102081 PIP102082
PIP102083 PIP102084
PIP102085 PIP102086
PIP102087 PIP102088
PIP102089 PIP102090
PIP102091 PIP102092
PIP102093 PIP102094
PIP102095 PIP102096
PIP102097 PIP102098
PIP102099 PIP1020100
COP102
PIR10101 PIR10102COR101
PIR10201 PIR10202COR102
POETHERNET00
1
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2
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D D
C C
B B
A A
Title:
Size: Number: Revision:
Date:File:
LPC2368 and JTAG
A3 EDP-CM-LPCx B19/03/2010D:\PCB Designs\DXP\EDP-CM-LPCx\Rev B\LPC2368.SchDoc
Hitex (UK) Ltd.Sir William Lyons RoadUniversity of Warwick Science ParkCoventry
Sheet2 of 5Author: A.Davison
Checked By:
Approved By:(c) Hitex (UK) Ltd.
TDO 1
P0[3]/RXD099
VD
D(3
V3)
28
P1[4]/ENET_TX_EN93
P1[10]/ENET_RXD190
P1[16]/ENET_MDC87V
DD
(DC
DC
)(3V
3)13
P0[4]/I2SRX_CLK/RD2/CAP2[0]81
P0[7]/I2STX_CLK/SCK1/MAT2[1]78
P0[9]/I2STX_SDA/MOSI1/MAT2[3]76
TMS 3
RTCK 100
VSS
15
P1[1]/ENET_TXD194
P1[9]/ENET_RXD091
P1[17]/ENET_MDIO86
VSS
31
P0[6]/I2SRX_SDA/SSEL1/MAT2[0]79
P2[0]/PWM1[1]/TXD1/TRACECLK 75
P2[1]/PWM1[2]/RXD1/PIPESTAT0 74
TCK 5
TRST 4
TDI 2
P0[2]/TXD098
P1[8]/ENET_CRS92
P1[15]/ENET_REF_CLK/ENET_RX_CLK88
P4[28]/MAT2[0]/TXD3 82
P0[8]/I2STX_WS/MISO1/MAT2[2]77
VSS
41V
DD
(3V
3)54
P0[24]/AD0[1]/I2SRX_WS/CAP3[1]8
P0[25]/AD0[2]/I2SRX_SDA/TXD37
P0[26]/AD0[3]/AOUT/RXD36
RSTOUT 14
P1[0]/ENET_TXD095
P1[14]/ENET_RX_ER89
P0[5]/I2SRX_WS/TD2/CAP2[1]80
P2[2]/PWM1[3]/CTS1/PIPESTAT1 73
P2[4]/PWM1[5]/DSR1/TRACESYNC 69
P2[5]/PWM1[6]/DTR1/TRACEPKT0 68
VSS
A11
VD
DA
10
VR
EF12
VD
D(D
CD
C)(
3V3)
42
P0[23]/AD0[0]/I2SRX_CLK/CAP3[0]9 P4[29]/MAT2[1]/RXD3 85
P2[3]/PWM1[4]/DCD1/PIPESTAT2 70
P2[6]/PCAP1[0]/RI1/TRACEPKT1 67
P2[7]/RD2/RTS1/TRACEPKT2 66
P2[8]/TD2/TXD2/TRACEPKT3 65
VSS
55
RTCX1 16
RESET 17
P1[31]/SCK1/AD0[5]20
P1[21]/PWM1[3]/SSEL035
P0[18]/DCD1/MOSI0/MOSI60
P2[9]/USB_CONNECT/RXD2/EXTIN0 64
P0[16]/RXD1/SSEL0/SSEL63
P0[17]/CTS1/MISO0/MISO61
P0[15]/TXD1/SCK0/SCK62
RTCX2 18
VB
AT
19
XTAL2 23
P0[30]/USB_D-30
P1[25]/MAT1[1]39
P1[29]/PCAP1[1]/MAT0[1]45
VSS
72
P0[21]/RI1/MCIPWR/RD157 P0[20]/DTR1/MCICMD/SCL158 P0[19]/DSR1/MCICLK/SDA159
P1[30]/VBUS/AD0[4]21
XTAL1 22
P3[25]/MAT0[0]/PWM1[2] 27
P1[18]/USB_UP_LED/PWM1[1]/CAP1[0]32
P1[24]/PWM1[5]/MOSI038
VD
D(D
CD
C)(
3V3)
84
P0[10]/TXD2/SDA2/MAT3[0]48
P2[11]/EINT1/MCIDAT1/I2STX_CLK 52
VD
D(3
V3)
71
P0[22]/RTS1/MCIDAT0/TD156
P0[28]/SCL024 P0[27]/SDA025
P0[29]/USB_D+29
P1[19]/CAP1[1]33
P1[22]/MAT1[0]36
VSS
97
P1[28]/PCAP1[0]/MAT0[0]44
P0[1]/TD1/RXD3/SCL147
P2[13]/EINT3/MCIDAT3/I2STX_SDA 50
P2[10]/EINT0 53
P3[26]/MAT0[1]/PWM1[3] 26
VD
D(3
V3)
96
VSS
83
P1[20]/PWM1[2]/SCK034
P1[23]/PWM1[4]/MISO037
P1[26]/PWM1[6]/CAP0[0]40
P1[27]/CAP0[1]43
P0[0]/RD1/TXD3/SDA146
P0[11]/RXD2/SCL2/MAT3[1]49
P2[12]/EINT2/MCIDAT2/I2STX_WS 51
U201
LPC2368FBD100 - LPC1768FBD100
SGND
P0_0P0_1
P0_4/PIO0_3P0_5/PIO1_9
P1_0P1_1P1_4P1_8P1_9P1_10P1_14P1_15P1_16P1_17P1_18/PIO1_10P1_19/PIO3_0P1_20/PIO3_1P1_21/PIO2_3P1_22/PIO3_2P1_23/PIO3_3P1_24P1_25P1_26
P1_28/PIO0_2P1_29/PIO0_8P1_30/PIO1_11P1_31
(ENET_TXD0)(ENET_TXD1)(ENET_TX_EN)
(ENET_RXD0)(ENET_RXD1)
(ENET_REF_CLK)(ENET_RX_ER)
#RESIN#RESOUT
(ENET_MDC)(ENET_MDIO)
(ENET_CRS)
1 23 45 67 89 1011 1213 1415 1617 1819 20
P201
2X10 Header
R20410K
R20310K
R20210K
R20110K
R20810K
R20710K
R20610K
R20510K
#RESIN #RESINTDO/SWO TDO/SWORTCK RTCKTCK/SWCLK TCK/SWCLK
TMS/SWDIOTMS/SWDIOTDITDI
#TRST #TRST
SGNDSGND
+3V3 +3V3
JTAG
+3V3
+3V3BAT
C203100nF
C204100nF
C205100nF
C206100nF
C207100nF
C208100nF
C209100nF
C210100nF
SGND
+3V3
P2_0/PIO2_8P2_1/PIO0_6
P2_3/PIO2_9P2_4/PIO2_10P2_5/PIO2_2P2_6P2_7/PIO2_1P2_8P2_9
P0_2/PIO1_7P0_3/PIO1_6
P0_19/PIO2_7P0_20/PIO2_4P0_21/PIO1_8P0_22/PIO2_5
P0_10/PIO2_0P0_11/PIO2_11
P0_23/PIO1_4P0_24P0_25P0_26
1
2
3JP201
Solderlink
AN_REF
+3V3
VAGND
1
2
3JP202
Solderlink
AN_REF
+3V3
12
32.768KHz
Y201CX8V-T1A 32.768kHz
C202
22pF
C201
22pF
SGND
SGND
1
2
3JP203
Solderlink
+3V3
1
2
3
12MHz
Y202CSTCE12M0G55
SGND
CNTRL I2C SDACNTRL I2C SCL
EVG1_GPIO42P3_25/PIO0_1
USB DEV D-USB DEV D+
EVM5_GPIO47
GPIO8_MCIDAT3GPIO6_MCIDAT2GPIO4_MCIDAT1P2_10
CNTRL SPI MTSRCNTRL SPI MRST
CNTRL SPI CLKCNTRL SPI #CS_NSS
EVM9_GPIO55
XTAL1
XTAL2
/CS_SD
SPI_MOSI1
SPI_SCK1SPI_MISO1
RST1
VDD2
VSS3
U202
MCP120T-300I/TT
C211100nF
#RESIN
SGND
+3V3
USB DEBUG D+USB DEBUG D- 1 2
3 4
P202
Header 2X2
SGND
+3V3
R20910K
+3V3
SGND
Only Populate for LPC1768Or LPC2368
Only withLPC2368
Only withLPC1768
R21010K_opt
+3V3
1 23 45 67 89 10
P203
Header 5X2
+3V3
SGND
#RESIN
TMS/SWDIOTCK/SWCLKTDO/SWOTDI
R21110K
+3V3
P2_10
Only populate withLPC1768 and LPC2368
PIC20101 PIC20102
COC201
PIC20201 PIC20202
COC202
PIC20301
PIC20302COC203
PIC20401
PIC20402COC204
PIC20501
PIC20502COC205
PIC20601
PIC20602COC206
PIC20701
PIC20702COC207
PIC20801
PIC20802COC208
PIC20901
PIC20902COC209
PIC21001
PIC21002COC210
PIC21101
PIC21102COC211
PIJP20101
PIJP20102PIJP20103
COJP201PIJP20201
PIJP20202PIJP20203
COJP202PIJP20301
PIJP20302PIJP20303
COJP203
PIP20101 PIP20102
PIP20103 PIP20104
PIP20105 PIP20106
PIP20107 PIP20108
PIP20109 PIP201010
PIP201011 PIP201012
PIP201013 PIP201014
PIP201015 PIP201016
PIP201017 PIP201018
PIP201019 PIP201020
COP201
PIP20201 PIP20202
PIP20203 PIP20204
COP202
PIP20301 PIP20302
PIP20303 PIP20304
PIP20305 PIP20306
PIP20307 PIP20308
PIP20309 PIP203010
COP203
PIR20101
PIR20102COR201
PIR20201
PIR20202COR202
PIR20301
PIR20302COR203
PIR20401
PIR20402COR204
PIR20501
PIR20502COR205
PIR20601
PIR20602COR206
PIR20701
PIR20702COR207
PIR20801
PIR20802COR208
PIR20901
PIR20902COR209
PIR21001
PIR21002COR210
PIR21101
PIR21102COR211
PIU20101
PIU20102
PIU20103
PIU20104
PIU20105
PIU20106
PIU20107
PIU20108
PIU20109
PIU201010
PIU201011
PIU201012PIU201013
PIU201014
PIU201015
PIU201016
PIU201017
PIU201018
PIU201019
PIU201020
PIU201021
PIU201022
PIU201023
PIU201024
PIU201025
PIU201026
PIU201027
PIU201028
PIU201029
PIU201030
PIU201031
PIU201032
PIU201033
PIU201034
PIU201035
PIU201036
PIU201037
PIU201038
PIU201039
PIU201040
PIU201041
PIU201042
PIU201043
PIU201044
PIU201045
PIU201046
PIU201047
PIU201048
PIU201049
PIU201050
PIU201051
PIU201052
PIU201053
PIU201054
PIU201055
PIU201056
PIU201057
PIU201058
PIU201059
PIU201060
PIU201061
PIU201062
PIU201063
PIU201064
PIU201065
PIU201066
PIU201067
PIU201068
PIU201069
PIU201070
PIU201071
PIU201072
PIU201073
PIU201074
PIU201075
PIU201076
PIU201077
PIU201078
PIU201079
PIU201080
PIU201081
PIU201082
PIU201083
PIU201084
PIU201085
PIU201086
PIU201087
PIU201088
PIU201089
PIU201090
PIU201091
PIU201092
PIU201093
PIU201094
PIU201095
PIU201096
PIU201097
PIU201098
PIU201099
PIU2010100
COU201
PIU20201
PIU20202
PIU20203
COU202
PIY20101
PIY20102COY201
PIY20201PIY20202
PIY20203COY202
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
D D
C C
B B
A A
Title:
Size: Number: Revision:
Date:File:
LPC1343
A3 EDP-CM-LPC B19/03/2010D:\PCB Designs\DXP\EDP-CM-LPCx\Rev B\LPC1343.SchDoc
Hitex (UK) Ltd.Sir William Lyons RoadUniversity of Warwick Science ParkCoventry
Sheet3 of 5Author: A.Davison
Checked By:
Approved By:(c) Hitex (UK) Ltd.
PIO2_6 1
PIO2_0/DTR 2RESET/PIO0_03
PIO0_1/CLKOUT/CT32B0_MAT2/USB_FTOGGLE4
VSS
IO5
XTALIN 6
XTALOUT 7
VD
DIO
8
PIO1_8/CT16B1_CAP09
PIO0_2/SSEL/CT16B0_CAP010
PIO2_7 11
PIO2_8 12
PIO2_1/DSR 13
PIO0_3/USB_VBUS14
PIO0_4/SCL15
PIO0_5/SDA16
PIO1_9/CT16B1_MAT017
PIO2_4 18
USB_DM 19
USB_DP 20
PIO2_5 21
PIO0_6/USB_CONNECT/SCK22
PIO0_7/CTS23
PIO2_9 24
PIO2_10 25
PIO2_2/DCD 26
PIO0_8/MISO/CT16B0_MAT027
PIO0_9/MOSI/CT16B0_MAT1/SWO28
SWCLK/PIO0_10/SCK/CT16B0_MAT229
PIO1_10/AD6/CT16B1_MAT130
PIO2_11/SCK 31TDI/PIO0_11/AD0/CT32B0_MAT332
TMS/PIO1_0/AD1/CT32B1_CAP033
TDO/PIO1_1/AD2/CT32B1_MAT034
TRST/PIO1_2/AD3/CT32B1_MAT135
PIO3_0 36
PIO3_1 37
PIO2_3/RI 38
SWDIO/PIO1_3/AD4/CT32B1_MAT239
PIO1_4/AD5/CT32B1_MAT3/WAKEUP40
VSS
41
PIO1_11/AD742
PIO3_2 43
VD
D(3
V3)
44
PIO1_5/RTS/CT32B0_CAP045
PIO1_6/RXD/CT32B0_MAT046
PIO1_7/TXD/CT32B0_MAT147
PIO3_3 48
U301
LPC1343FBD48
TDO/SWO
TCK/SWCLK
TMS/SWDIOTDI
#TRST
TDO/SWO
TMS/SWDIOP0_23/PIO1_4
#RESIN
P1_30/PIO1_11
XTAL1
XTAL2XTAL MUST BE POSITIONED CLOSE TO BOTH U201 AND U301
CNTRL I2C SCLCNTRL I2C SDA
EVG1_GPIO42
P3_25/PIO0_1
+3V3 +3V3
USB DEV D-USB DEV D+
SGNDSGND
P1_18/PIO1_10
P1_19/PIO3_0P1_20/PIO3_1
P1_21/PIO2_3
P1_22/PIO3_2P1_23/PIO3_3
EVM5_GPIO47
P0_10/PIO2_0
P0_11/PIO2_11
P2_7/PIO2_1P2_5/PIO2_2
P2_4/PIO2_10P2_3/PIO2_9
EVM9_GPIO55P2_1/PIO0_6
P2_0/PIO2_8
P0_22/PIO2_5
P0_21/PIO1_8
P0_20/PIO2_4
P0_19/PIO2_7
P0_5/PIO1_9
P0_4/PIO0_3
P0_2/PIO1_7P0_3/PIO1_6
C301100nF
C302100nF
+3V3
SGND
R3020R
R304
0R
R301
0R
R303
0R
PIO1_0PIO1_1
PIO1_3
PIO0_9
P1_28/PIO0_2
P1_29/PIO0_8
R30510K
+3V3
P3_25/PIO0_1
PIC30101
PIC30102COC301
PIC30201
PIC30202COC302
PIR30101 PIR30102
COR301
PIR30201 PIR30202
COR302
PIR30301 PIR30302
COR303
PIR30401 PIR30402
COR304
PIR30501
PIR30502COR305
PIU30101
PIU30102PIU30103
PIU30104
PIU30105
PIU30106
PIU30107
PIU30108
PIU30109
PIU301010
PIU301011
PIU301012
PIU301013
PIU301014
PIU301015
PIU301016
PIU301017
PIU301018
PIU301019
PIU301020
PIU301021
PIU301022
PIU301023
PIU301024
PIU301025
PIU301026
PIU301027
PIU301028
PIU301029
PIU301030
PIU301031PIU301032
PIU301033
PIU301034
PIU301035
PIU301036
PIU301037
PIU301038
PIU301039
PIU301040
PIU301041
PIU301042
PIU301043
PIU301044
PIU301045
PIU301046
PIU301047
PIU301048
COU301
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
D D
C C
B B
A A
Title:
Size: Number: Revision:
Date:File:
Link Options
A3 EDP-CM-LPC B19/03/2010D:\PCB Designs\DXP\EDP-CM-LPCx\Rev B\Jumpers.SchDoc
Hitex (UK) Ltd.Sir William Lyons RoadUniversity of Warwick Science ParkCoventry
Sheet4 of 5Author: A.Davison
Checked By:
Approved By:(c) Hitex (UK) Ltd.
2
13
4
JP408Solderlink
P0_26
AN3
AN11
CPU DACO0_GPIO17
1
2
3
JP401SolderlinkP0_25
AN2
AN101
2
3
JP402SolderlinkP0_24
AN1
AN9
P0_23/PIO1_4
1
2
3
JP403Solderlink
AN0
AN8
1
2
3
JP404SolderlinkP1_31
AN5
AN13
1
2
3
JP405SolderlinkP1_30/PIO1_11
AN4
AN12
1
2
3
JP406SolderlinkP3_25/PIO0_1
EVG0_GPIO40
LED1
R40110K
23
1 Q401BC848C
D401LED YELLOW
R402330R
SGND
+3V3+3V3
P1_18/PIO1_10
EVG5_GPIO50
EVG8_GPIO56
1
2
3
JP409Solderlink
1
2
3
JP410Solderlink
1
2
3
JP411Solderlink
P1_19/PIO3_0
EVG9_GPIO57
MOTOR P0H
P1_20/PIO3_1
EVG10_GPIO58
MOTOR H0_ENC0
P1_21/PIO2_3
EVG11_GPIO59
EMG TRP
1
2
3
JP412Solderlink
12
3JP413Solderlink
1
2
3
JP414Solderlink
P1_22/PIO3_2
EVG12_GPIO60
MOTOR P0L
P1_23/PIO3_3
EVG13_GPIO61
MOTOR H1_ENC1
1
2
3
JP415Solderlink
1
2
3
JP416Solderlink
1
2
3
JP417Solderlink
1
2
3
JP418Solderlink
P1_24
EVG14_GPIO62
MOTOR H2_ENC2
P1_25
EVG15_GPIO63
MOTOR P1H
P1_26
EVG16_GPIO64
MOTOR P1L
P1_28/PIO0_2
EVG17_GPIO65
MOTOR P2H
P1_29/PIO0_8
EVG18_GPIO66
MOTOR P2L
P0_0
I2C GEN0 SDA
CAN0 TX
1
2
3
JP421Solderlink
1
2
3
JP422Solderlink
1
2
3
JP423Solderlink
1
2
3
JP424Solderlink
1
2
3
JP425Solderlink
1
2
3
JP426Solderlink
1
2
3
JP427Solderlink
1
2
3
JP428SolderlinkP0_1
I2C GEN0 SCL
CAN0 RX
P0_10/PIO2_0
GPIO0
EVG6_GPIO52
P0_11/PIO2_11
GPIO1
EVG7_GPIO54
P2_10
IRQ_GPIO16_CNTRL I2C INT
IRQ_GPIO18_I2C GEN0 INT
P2_9
EVM10_GPIO68_ASC0 CTS
ASC1 RX TTL
P2_8
CAN1 TX
ASC1 TX TTL
P2_7/PIO2_1
ASC1 TX TTL_ASC0 DTR
CAN1 RX
P2_6
MOTOR TCO FB
R40310K
23
1 Q402BC848C
D402LED YELLOW
R404330R
SGND
+3V3+3V3
LED0
P2_5/PIO2_2
EVG4_GPIO48
EVG19_GPIO67
1
2
3
JP429Solderlink
1
2
3
JP430Solderlink
1
2
3
JP431Solderlink
1
2
3
JP432Solderlink
1
2
3
JP433Solderlink
1
2
3
JP434Solderlink
1
2
3
JP435Solderlink
1
2
3
JP436Solderlink
1
2
3
JP438Solderlink
P2_4/PIO2_10
CPU DACO1_GPIO19
EVG3_GPIO46
P2_3/PIO2_9
CPU DACO0_GPIO17
EVG2_GPIO44
P2_1/PIO0_6
EVM8_GPIO53
ASC1 RX TTL
P2_0/PIO2_8
EVM7_GPIO51
ASC1 TX TTL
P0_22/PIO2_5
EVM6_GPIO49
P0_21/PIO1_8
EVM4_GPIO45
P0_20/PIO2_4
EVM3_GPIO43
P0_19/PIO2_7
EVM2_GPIO41_CAPADC
P0_5/PIO1_9
GPIO9_I2SRX_WS
EVM1_GPIO23
P0_4/PIO0_3
GPIO7_I2SRX_CLK
EVM0_GPIO21
2
13
4
JP439Solderlink
2
13
4
JP440Solderlink
P0_2/PIO1_7 AN7
AN15
ASC0 TX TTL
P0_3/PIO1_6 AN6
AN14
ASC0 RX TTL
GPIO2_MCIDAT0
GPIO10_MCICLK
GPIO12_MCICMD
GPIO14_MCIPWR
2
13
4
JP419Solderlink
2
13
4JP420Solderlink
CAN0_RX_LOCAL
CAN0_TX_LOCAL
EVG0_GPIO40
CPU DACO0_GPIO172
13
4
JP437Solderlink
2
13
4
JP407Solderlink PID40101
PID40102COD401
PID40201PID40202
COD402
PIJP40101
PIJP40102
PIJP40103
COJP401
PIJP40201
PIJP40202
PIJP40203
COJP402
PIJP40301
PIJP40302
PIJP40303
COJP403
PIJP40401
PIJP40402
PIJP40403
COJP404
PIJP40501
PIJP40502
PIJP40503
COJP405
PIJP40601
PIJP40602
PIJP40603
COJP406
PIJP40701
PIJP40702
PIJP40703
PIJP40704
COJP407
PIJP40801
PIJP40802
PIJP40803
PIJP40804
COJP408 PIJP40901
PIJP40902
PIJP40903
COJP409
PIJP41001
PIJP41002
PIJP41003
COJP410
PIJP41101
PIJP41102
PIJP41103
COJP411
PIJP41201
PIJP41202
PIJP41203
COJP412
PIJP41301
PIJP41302
PIJP41303
COJP413
PIJP41401
PIJP41402
PIJP41403
COJP414
PIJP41501
PIJP41502
PIJP41503
COJP415
PIJP41601
PIJP41602
PIJP41603
COJP416
PIJP41701
PIJP41702
PIJP41703
COJP417
PIJP41801
PIJP41802
PIJP41803
COJP418
PIJP41901
PIJP41902
PIJP41903
PIJP41904
COJP419
PIJP42001
PIJP42002
PIJP42003
PIJP42004COJP420
PIJP42101
PIJP42102
PIJP42103
COJP421
PIJP42201
PIJP42202
PIJP42203
COJP422
PIJP42301
PIJP42302
PIJP42303
COJP423
PIJP42401
PIJP42402
PIJP42403
COJP424
PIJP42501
PIJP42502
PIJP42503
COJP425
PIJP42601
PIJP42602
PIJP42603
COJP426
PIJP42701
PIJP42702
PIJP42703
COJP427
PIJP42801
PIJP42802
PIJP42803
COJP428
PIJP42901
PIJP42902
PIJP42903
COJP429
PIJP43001
PIJP43002
PIJP43003
COJP430
PIJP43101
PIJP43102
PIJP43103
COJP431
PIJP43201
PIJP43202
PIJP43203
COJP432
PIJP43301
PIJP43302
PIJP43303
COJP433
PIJP43401
PIJP43402
PIJP43403
COJP434
PIJP43501
PIJP43502
PIJP43503
COJP435
PIJP43601
PIJP43602
PIJP43603
COJP436
PIJP43701
PIJP43702
PIJP43703
PIJP43704
COJP437
PIJP43801
PIJP43802
PIJP43803
COJP438
PIJP43901
PIJP43902
PIJP43903
PIJP43904
COJP439
PIJP44001
PIJP44002
PIJP44003
PIJP44004
COJP440
PIQ40101
PIQ40102
PIQ40103COQ401
PIQ40201
PIQ40202
PIQ40203COQ402
PIR40101
PIR40102COR401
PIR40201
PIR40202COR402
PIR40301
PIR40302COR403
PIR40401
PIR40402COR404
1
1
2
2
3
3
4
4
5
5
6
6
7
7
8
8
D D
C C
B B
A A
Title:
Size: Number: Revision:
Date:File:
Ethernet, CAN, SD Card
A3 EDP-CM-LPCx B19/03/2010D:\PCB Designs\DXP\EDP-CM-LPCx\Rev B\Ethernet.SchDoc
Hitex (UK) Ltd.Sir William Lyons RoadUniversity of Warwick Science ParkCoventry
Sheet5 of 5Author: A.Davison
Checked By:
Approved By:(c) Hitex (UK) Ltd.
TX_CLK1
TX_EN2
TXD_03
TXD_14
TXD_25
TXD_36
PWR_DOWN/INT 7
NC 8
NC 9
NC 10
NC 11
NC 12
RD- 13
RD+ 14
AV
SS15
TD- 16
TD+ 17
PFBIN118
AV
SS19
RES
ERV
ED20
RES
ERV
ED21
AV
DD
3322
PFBOUT23
RBIAS24
25MHz_OUT25
LED_ACT/COL 26LED_SPEED 27LED_LINK 28
RESET_N 29
MDIO30 MDC31
IOV
DD
3332
X1 34X2 33
IOV
SS35
DV
SS36
PFBIN237
RX_CLK38 RX_DV39
CRS/CRS_DV40
RX_ER41
COL42
RXD_043
RXD_144
RXD_245
RXD_346
IOV
SS47
IOV
DD
3348
U501
DP83848CVV
D1
GND2
VCC3
R4
VREF 5
CANL 6
CANH 7
RS 8
U502
SN65HVD230D
SGND
+3V3
SGND
SGND
CANH0
CANL0
C508100nF
SGND
+3V3
R512120R
R51310K
SGND
CAN0_RX_LOCAL
CAN0_TX_LOCAL
C50610uF 10V
C507100nF
C505100nF
C504100nF
SGND
P1_0P1_1
P1_4(ENET_TXD0)(ENET_TXD1)
(ENET_TX_EN)
P1_9P1_10
P1_14
P1_15
(ENET_RXD0)(ENET_RXD1)
(ENET_REF_CLK)
(ENET_RX_ER)
ETH TX_PETH TX_N
ETH RX_PETH RX_N
ETH LNK LED
ETH RX LEDETH SPD LED
R502
2K2
R501
2K2
+3V3
R503
10K
+3V3
R50849R9
R50749R9
R50649R9
R50449R9
C502100nF
C503100nF
SGND
ETH TX_PETH TX_N
ETH RX_PETH RX_N
R5094K87 1%
SGND
LEDs Active Low
#RESIN
P1_16P1_17
(ENET_MDC)(ENET_MDIO)
TriState 1
GND 2OUTPUT3
VDD4Y501
50.000MHZ XO53050UITA
+3V3
SGND
R5052K2+3V3
P1_8 (ENET_CRS)
C501100nF
SGND
+3V3
ETHERNET..
ETHERNET..
+3V3
NC1
/CS2
DI3
VDD4
CLK5
VSS6
DO7
RSV8
J501
ST2S008V1A
/CS_SDSPI_MOSI1
SPI_SCK1
SGND SPI_MISO1
R51410K
/CS_SD
+3V3
+3V3
C51010uF 10V
C509100nF
SGND
12
JP501Jumper
PIC50101
PIC50102COC501
PIC50201
PIC50202COC502
PIC50301
PIC50302COC503
PIC50401
PIC50402COC504
PIC50501
PIC50502COC505
PIC50601
PIC50602COC506
PIC50701
PIC50702COC507
PIC50801
PIC50802COC508
PIC50901
PIC50902COC509
PIC51001
PIC51002COC510
PIJ50101
PIJ50102
PIJ50103
PIJ50104
PIJ50105
PIJ50106
PIJ50107
PIJ50108
COJ501
PIJP50101
PIJP50102
COJP501
PIR50101PIR50102COR501
PIR50201PIR50202
COR502
PIR50301PIR50302COR503
PIR50401
PIR50402COR504
PIR50501PIR50502COR505
PIR50601
PIR50602COR506
PIR50701
PIR50702COR507
PIR50801
PIR50802COR508
PIR50901
PIR50902COR509
PIR51201
PIR51202COR512
PIR51301
PIR51302COR513
PIR51401
PIR51402COR514
PIU50101
PIU50102
PIU50103
PIU50104
PIU50105
PIU50106
PIU50107
PIU50108
PIU50109
PIU501010
PIU501011
PIU501012
PIU501013
PIU501014
PIU501015
PIU501016
PIU501017
PIU501018
PIU501019
PIU501020PIU501021PIU501022
PIU501023
PIU501024
PIU501025
PIU501026
PIU501027
PIU501028
PIU501029
PIU501030
PIU501031
PIU501032PIU501033
PIU501034
PIU501035 PIU501036
PIU501037
PIU501038
PIU501039
PIU501040
PIU501041
PIU501042
PIU501043
PIU501044
PIU501045
PIU501046
PIU501047
PIU501048 COU501
PIU50201
PIU50202
PIU50203
PIU50204
PIU50205
PIU50206
PIU50207
PIU50208
COU502
PIY50101
PIY50102PIY50103
PIY50104
COY501
POETHERNET00
PAC20101
PAC20102COC201PAC20201 PAC20202COC202
PAC21102 PAC21101COC211
PAC50201
PAC50202COC502PAC50301
PAC50302COC503
PAC50401
PAC50402
COC504PAC50501
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PAJP40201 PAJP40202 PAJP40203COJP402
PAJP40303PAJP40302PAJP40301COJP403
PAJP40601 PAJP40602 PAJP40603COJP406
PAJP40701 PAJP40702 PAJP40703PAJP40704
COJP407
PAJP40801 PAJP40802 PAJP40803PAJP40804
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PAJP40901 PAJP40902 PAJP40903COJP409
PAJP41003PAJP41002PAJP41001COJP410
PAJP41101 PAJP41102 PAJP41103COJP411
PAJP41203PAJP41202PAJP41201COJP412
PAJP41301 PAJP41302 PAJP41303COJP413
PAJP41403PAJP41402PAJP41401COJP414
PAJP41501 PAJP41502 PAJP41503COJP415
PAJP41603PAJP41602PAJP41601COJP416
PAJP41701 PAJP41702 PAJP41703COJP417
PAJP41803PAJP41802PAJP41801COJP418
PAJP41904PAJP41903PAJP41902PAJP41901 COJP419
PAJP42004PAJP42003PAJP42002PAJP42001
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PAJP42101 PAJP42102 PAJP42103COJP421
PAJP42203PAJP42202PAJP42201COJP422
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PAP201014PAP201013
PAP201012PAP201011
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PAC20701 PAC20702COC207
PAC20801 PAC20802COC208
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PAJP42303 PAJP42302 PAJP42301COJP423
PAJP42401PAJP42402PAJP42403COJP424
PAJP42503 PAJP42502 PAJP42501COJP425
PAJP42601PAJP42602PAJP42603COJP426
PAJP42703 PAJP42702 PAJP42701COJP427
PAJP42801PAJP42802PAJP42803COJP428
PAJP42903 PAJP42902 PAJP42901COJP429
PAJP43001PAJP43002PAJP43003COJP430
PAJP43103 PAJP43102 PAJP43101COJP431
PAJP43201PAJP43202PAJP43203COJP432
PAJP43303 PAJP43302 PAJP43301COJP433
PAJP43401PAJP43402PAJP43403COJP434
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PAJP43601PAJP43602PAJP43603COJP436
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PAJP43901 PAJP43902 PAJP43903PAJP43904COJP439
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PAP1010119PAP1010120
PAP1010117PAP1010118
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PAP1010113PAP1010114
PAP1010111PAP1010112
PAP1010109PAP1010110
PAP1010107PAP1010108
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PAP1010103PAP1010104PAP1010101PAP1010102PAP101099PAP1010100
PAP101097PAP101098
PAP101095PAP101096
PAP101093PAP101094
PAP101091PAP101092
PAP101089PAP101090
PAP101087PAP101088
PAP101085PAP101086
PAP101083PAP101084
PAP101081PAP101082PAP101079PAP101080PAP101077PAP101078PAP101075PAP101076
PAP101073PAP101074
PAP101071PAP101072
PAP101069PAP101070
PAP101067PAP101068
PAP101065PAP101066
PAP101063PAP101064
PAP101061PAP101062
PAP101059PAP101060
PAP101057PAP101058PAP101055PAP101056PAP101053PAP101054
PAP101051PAP101052
PAP101049PAP101050
PAP101047PAP101048
PAP101045PAP101046
PAP101043PAP101044
PAP101041PAP101042
PAP101039PAP101040
PAP101037PAP101038
PAP101035PAP101036
PAP101033PAP101034PAP101031PAP101032PAP101029PAP101030
PAP101027PAP101028
PAP101025PAP101026
PAP101023PAP101024
PAP101021PAP101022
PAP101019PAP101020
PAP101017PAP101018
PAP101015PAP101016
PAP101013PAP101014
PAP10103PAP10104
PAP10101PAP10102
PAP10106 PAP10105
PAP10108 PAP10107
PAP101010 PAP10109
PAP101012 PAP101011
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PAP102099PAP1020100
PAP102097PAP102098
PAP102095PAP102096PAP102093PAP102094PAP102091PAP102092PAP102089PAP102090
PAP102087PAP102088
PAP102085PAP102086
PAP102083PAP102084
PAP102081PAP102082
PAP102079PAP102080
PAP102077PAP102078
PAP102075PAP102076
PAP102073PAP102074
PAP102071PAP102072PAP102069PAP102070PAP102067PAP102068
PAP102065PAP102066
PAP102063PAP102064
PAP102061PAP102062
PAP102059PAP102060
PAP102057PAP102058
PAP102055PAP102056
PAP102053PAP102054
PAP102051PAP102052
PAP102049PAP102050PAP102047PAP102048PAP102045PAP102046PAP102043PAP102044
PAP102041PAP102042
PAP102039PAP102040
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