ATMEL ATSAM4S-EK

SAM4S-EK Development Board
....................................................................................................................
User Guide
11139A–ATARM–29-Nov-11
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11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Section 1
Introduction .................................................................................................................1-1
1.1
SAM4S Evaluation Kit ........................................................................................................ 1-1
1.2
User Guide ......................................................................................................................... 1-1
1.3
References and Applicable Documents ............................................................................. 1-1
Section 2
Kit Contents ................................................................................................................2-1
2.1
Deliverables ....................................................................................................................... 2-1
2.2
Electrostatic Warning ......................................................................................................... 2-2
Section 3
Power Up ....................................................................................................................3-1
3.1
Power up the Board ........................................................................................................... 3-1
3.2
Sample Code and Technical Support ................................................................................ 3-1
Section 4
Evaluation Kit Hardware .............................................................................................4-1
4.1
Board Overview.................................................................................................................. 4-1
4.2
Features List ...................................................................................................................... 4-2
4.3
Function Blocks.................................................................................................................. 4-2
4.3.1
Processor............................................................................................................. 4-2
4.3.2
Memory ................................................................................................................ 4-2
4.3.3
Clock Circuitry...................................................................................................... 4-3
4.3.4
Reset Circuitry ..................................................................................................... 4-4
4.3.5
Power Supply and Management.......................................................................... 4-4
4.3.6
UART ................................................................................................................... 4-5
4.3.7
USART................................................................................................................. 4-5
4.3.8
RS232 .................................................................................................................. 4-6
4.3.9
RS485 .................................................................................................................. 4-6
4.3.10 Display Interface .................................................................................................. 4-6
4.3.11 LCD Module ........................................................................................................ 4-6
4.3.12 Backlight Control.................................................................................................. 4-7
4.3.13 Touch Screen Interface ....................................................................................... 4-8
4.3.14 JTAG/ICE............................................................................................................. 4-8
4.3.15 Audio Interface..................................................................................................... 4-9
4.3.16 Microphone Input ................................................................................................. 4-9
4.3.17 USB Device ....................................................................................................... 4-11
4.3.18 Analog Interface ................................................................................................ 4-11
4.3.19 QTouch Elements .............................................................................................. 4-12
4.3.20 User Buttons ...................................................................................................... 4-13
SAM4S-EK Development Board User Guide
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11139A–ATARM–29-Nov-11
4.3.21 LEDs .................................................................................................................. 4-14
4.3.22 SD/MMC Card.................................................................................................... 4-14
4.3.23 ZigBEE............................................................................................................... 4-14
4.3.24 PIO Expansion ................................................................................................... 4-15
4.4
4.5
Configuration.................................................................................................................... 4-16
4.4.1
PIO Usage ......................................................................................................... 4-16
4.4.2
Jumpers ............................................................................................................. 4-19
4.4.3
Test Points ......................................................................................................... 4-20
4.4.4
Solder Drops ...................................................................................................... 4-20
4.4.5
Assigned PIO Lines, Disconnection Possibility.................................................. 4-20
Connectors....................................................................................................................... 4-22
4.5.1
Power Supply Connector J9 .............................................................................. 4-22
4.5.2
USART Connector J5 With RTS/CTS Handshake Support ............................... 4-22
4.5.3
UART Connector J7 .......................................................................................... 4-23
4.5.4
USB Device Connector J15 ............................................................................... 4-23
4.5.5
TFT LCD Connector J8...................................................................................... 4-24
4.5.6
JTAG Debugging Connector J6 ......................................................................... 4-25
4.5.7
SD/MMC - MCI Connector J3 ............................................................................ 4-26
4.5.8
Analog Connector CN1 & CN2 .......................................................................... 4-27
4.5.9
RS485 Connector J14 ....................................................................................... 4-27
4.5.10 Headphone Connector J11 ................................................................................ 4-28
4.5.11 ZigBEE Connector J16 ...................................................................................... 4-28
4.5.12 PIO Expansion Port C Connector J12 ............................................................... 4-29
4.5.13 PIO Expansion Port A Connector J13 .............................................................. 4-30
4.5.14 PIO Expansion Port B Connector J14 ............................................................... 4-31
Section 5
Schematics .................................................................................................................5-1
5.1
Schematics......................................................................................................................... 5-1
Section 6
Troubleshooting ..........................................................................................................6-1
6.1
Board Recovery ................................................................................................................. 6-1
Section 7
Revision History..........................................................................................................7-1
7.1
Revision History ................................................................................................................. 7-1
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11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Introduction
Section 1
Introduction
1.1
SAM4S Evaluation Kit
The SAM4S Evaluation Kit (SAM4S-EK) enables evaluation capabilities and code development of applications running on a SAM4S16 device.
1.2
User Guide
This guide focuses on the SAM4S-EK board as an evaluation platform. It is made up of 6 sections:
1.3
„
Section 1 includes references, applicable documents, acronyms and abbreviations.
„
Section 2 describes the kit contents, its main features and specifications.
„
Section 3 provides board specifications.
„
Section 4 describes the development environment.
„
Section 5 provides instructions to power up the SAM4S-EK and describes how to use it.
„
Section 6 describes the hardware resources, default jumper and switch settings, and connectors.
„
Section 7 provides schematics.
„
Section 8 describes the troubleshooting.
References and Applicable Documents
Table 1-1. References and Applicable Documents
Title
SAM4S Datasheet
SAM4S-EK Development Board User Guide
Comment
http://www.atmel.com/dyn/resources/prod_documents/11100.pdf
1-1
11139A–ATARM–29-Nov-11
Section 2
Kit Contents
2.1
Deliverables
The Atmel® SAM4S-EK toolkit contains the following items:
„
Board:
– a SAM4S-EK board
– a universal input AC/DC power supply with US, Europe and UK plug adapters
„
Cables:
– one USB cable
– one serial RS232 cable
„
A Welcome Letter
Figure 2-1.
Unpacked SAM4S-EK
Unpack and inspect the kit carefully. Contact your local Atmel distributor, should you have issues concerning the contents of the kit.
SAM4S-EK Development Board User Guide
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11139A–ATARM–29-Nov-11
Kit Contents
2.2
Electrostatic Warning
The SAM4S-EK board is shipped in a protective anti-static package. The board must not be subjected to
high electrostatic potentials. A grounding strap or similar protective device should be worn when handling the board. Avoid touching the components or any other metallic element of the board.
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11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Section 3
Power Up
3.1
Power up the Board
Unpack the board taking care to avoid electrostatic discharge. Unpack the power supply, select the right
power plug adapter corresponding to that of your country, and insert it in the power supply.
Connect the power supply DC connector to the board and plug the power supply to an AC power plug.
The board LCD should light up and display a welcome page. Then, click or touch icons displayed on the
screen and enjoy the demo.
3.2
Sample Code and Technical Support
After boot up, you can run some sample code or your own application on the development kit. You can
download sample code and get technical support from Atmel website
http://www.atmel.com/dyn/products/tools.asp?category_id=163&family_id=605&subfamily_id=2404
Figure 3-1.
Atmel Website for AT91SAM Products
SAM4S-EK Development Board User Guide
3-1
11139A–ATARM–29-Nov-11
Section 4
Evaluation Kit Hardware
4.1
Board Overview
This section introduces the Atmel SAM4S Evaluation Kit design. It introduces system-level concepts,
such as power distribution, memory, and interface assignments.
The SAM4S-EK board is based on the integration of an ARM® Cortex®-M3 processor with on-board
NAND Flash and a set of popular peripherals. It is designed to provide a high performance processor
evaluation solution with high flexibility for various kinds of applications.
Figure 4-1.
SAM4S-EK Block Diagram
SAM4S-EK Development Board User Guide
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11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.2
Features List
Here is the list of the main board components and interfaces:
„
SAM4S16 chip LQFP100 package with optional socket footprint
„
12 MHz crystal
„
32.768 KHz crystal
„
Optional SMB connector for external system clock input
„
NAND Flash
„
2.8 inch TFT color LCD display with touch panel and backlight
„
UART port with level shifter circuit
„
USART port with level shifter circuit multiplexed with RS485 port with level shifter circuit
„
Microphone input and mono/stereo headphone jack output
„
SD/MMC interface
„
Reset button: NRST
„
User buttons: Left and Right
„
QTouch® buttons: Up, Down, Left, Right, Valid and Slider
„
Full Speed USB device port
„
JTAG/ICE port
„
On-board power regulation
„
Two user LEDs
„
Power LED
„
BNC connector for ADC input
„
BNC connector for DAC output
„
User potentiometer connected to the ADC input
„
ZigBEE connector
„
2x32 bit PIO connection interfaces (PIOA, PIOC) and 1x16 bit PIO connection interface (PIOB)
4.3
Function Blocks
4.3.1
Processor
The SAM4S-EK is equipped with a SAM4S16 device in LQFP100 package.
4.3.2
Memory
The SAM4S16 chip embeds:
„
1024 Kbytes of embedded Flash
„
128 Kbytes of embedded SRAM
„
16 Kbytes of ROM with embedded BootLoader routines (UART, USB) and In-Application Programming
functions (IAP) routines.
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11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
The SAM4S features an External Bus Interface (EBI) that permits interfacing to a broad range of external
memories and virtually to any parallel peripheral. The SAM4S-EK board is equipped with a memory
device connected to the SAM4 EBI:
„
One NAND Flash MT29F2G08ABAEA.
Figure 4-2.
NAND Flash
+3V3
+3V3
NAND FLASH
R16
47K
R15
47K
MN3
MT29F2G08ABAEA
16
17
8
18
PC17
PC16
PC9
PC10
JP9
Header2
9
PC14
PC18 R19
7
19
0R
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
+3V3
R21
47K
R22
0R nm
DGND
CLE
ALE
RE
WE
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
CE
R/B
WP
N.C28
N.C27
N.C26
N.C25
N.C24
N.C23
PRE
N.C22
N.C21
N.C20
N.C19
N.C18
N.C1
N.C2
N.C3
N.C4
N.C5
N.C6
N.C7
N.C8
N.C9
N.C10
N.C11
N.C12
N.C13
N.C14
N.C15
N.C16
N.C17
VCC
VCC
VSS
VSS
29
30
31
32
41
42
43
44
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
48
47
46
45
40
39
38
35
34
33
28
27
+3V3
37
12
C27
100nF
C28
100nF
C29
1uF
36
13
DGND
NCS0 chip select signal is used for NAND Flash chip selection. Furthermore, a dedicated jumper (JP9)
can disconnect it from the on-board memories, thereby letting NCS0 free for other custom purpose.
4.3.3
Clock Circuitry
The clock generator of a SAM4S microcontroller is made up of:
„
A Low Power 32.768 Hz Slow Clock Oscillator with bypass mode.
„
A 3 to 20 MHz Crystal Oscillator, which can be bypassed (12 MHz needed in case of USB).
„
A factory programmed fast internal RC Oscillator. 3 output frequencies can be selected: 4 (default
value), 8 or 12 MHz.
„
A 60 to 130 MHz PLL (PLLB) providing a clock for the USB Full Speed Controller.
„
A 60 to 130 MHz programmable PLL (PLLA), capable to provide the clock MCK to the processor and
to the peripherals. The input frequency of PLLA is from 7.5 and 20 MHz.
The SAM4S-EK board is equipped with one 12 MHz crystal, optional Piezoelectric Ceramic Resonator
12 Mhz (Murata ref. CSTCE12M0G15L99-R0), one 32.768 Hz crystal and an external clock input connector (optional, not populated by default).
Figure 4-3.
External Clock Source
NOT POPULATED
J1
1
3
5
C3
20pF
DNP
R11
0R
XIN32
1
R1
R2
49.9R 1%
R3
3
DNP
Y3
32.768KHz
1
MN1
C1
DGND
20pF
R4
0R
XIN
2
2
4
XOUT32
DGND
DGND
3
Y1
DNP
Y2
2
DGND
DGND
R7
12MHz
R5
C2
DNP
SAM4S-EK Development Board User Guide
PB9
R6
PB8
R8
0R
DNP
97
PB9_XIN
SAM4S
R12
0R
C4
20pF
XOUT
20pF
DNP
96
PB8_XOUT
PA7_RTS0_PWMH3
PA8_CTS0_AD12BTRG
49
48
R9
XIN32
XOUT32 R10
DNP
DNP
PA7
PA8
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11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
The SAM4S chip internally generates the following clocks:
4.3.4
„
SLCK, the Slow Clock, which is the only permanent clock of the system
„
MAINCK, the output of the Main Clock Oscillator selection: either a Crystal Oscillator or a 4/8/12 MHz
Fast RC Oscillator
„
PLLACK, the output of the Divider and 60 to 130 MHz programmable PLL (PLLA)
„
PLLBCK, the output of the Divider and 60 to 130 MHz programmable PLL (PLLB)
Reset Circuitry
On-board NRST button BP1 provides an external reset control of the SAM4S.
The NRST pin is bidirectional. It is handled by the on-chip reset controller. It can be driven low to provide
a reset signal out to the external components. Conversely, it can be asserted low from the outside to
reset the microcontroller Core and the peripherals. The NRST pin integrates a permanent pull-up resistor
of about 100 kOhm to VDDIO.
On the SAM4S-EK board, the NRST signal is connected to the LCD module and JTAG port.
Note:
4.3.5
At power-on, the NRST signal is asserted with a default duration of 2 clock cycles. That duration may not be
sufficient to correctly reset any other system or board devices connected to that signal. First, in your custom
application, you need to check for these devices' datasheets about reset duration requirements. Then, you
need to set an appropriate configuration in the NRST Manager. This is done through the ERSTL field in the
RSTC_MR register. The NRST duration is thereby configurable between 60 µs and 2 s, whether it is subsequently activated by a software reset or a user reset. Refer to the SAM4S datasheet for in depth
information.
Power Supply and Management
The SAM4S-EK board is supplied with an external 5V DC block through input J9. It is protected by a
PolyZen diode MN9 and an LC combinatory filter MN10. The PolyZen is used in the event of an incorrect
power supply connection.
The adjustable LDO regulator MN12 is used for the 3.3V rail main supply. It powers all the 3.3V components on the board.
Figure 4-4.
Power Block
J9
Power Jack 2.1mm
1
2
MN9
ZEN056V130A24LS
3
MN10
BNX002-01
1
C64
100nF
2
3
1
+ C65
22uF
2
SV
CV
SG CG1
CG2
CG3
+5V
3
4
5
6
+ C66
22uF
+ C98
220uF-ELE-16V
DGND
MN12
MIC29152WU
Micrel's 1.5A LDO, TO263-5
+5V
+3V3
ADJ
GND2
SD
GND1
VOUT
3
1
VIN
4
5
R89
169K 1%
+ C75
C76
100uF-TAN-6.3V 100nF
6
2
R92
102K 1%
DGND
The SAM4S product series has different types of power supply pins:
„
4-4
11139A–ATARM–29-Nov-11
VDDIN pin:
Power for the internal voltage regulator, ADC, DAC, and analog comparator power supplies.
The voltage ranges from 1.8V to 3.6V.
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
„
VDDIO pins:
Power for the Peripherals I/O lines.
The voltage ranges from 1.62V to 3.6V.
„
VDDOUT pin:
Output of the internal voltage regulator.
„
VDDCORE pins:
Power for the core, including the processor, embedded memories and peripherals.
The voltage ranges from 1.62V to 1.95V.
„
VDDPLL pin:
Power for the PLL A, PLL B and 12 MHz oscillator.
The voltage ranges from 1.62V to 1.95V.
Note:
4.3.6
VDDPLL should be decoupled and filtered from VDDCORE.
UART
The Universal Asynchronous Receiver Transmitter features a two-pin UART that can be used for communication and trace purposes. It offers an ideal channel for in-situ programming solutions. This UART
is associated with two PDC channels to reduce the processor time on packet handling.
This two-pin UART (TXD and RXD only) is buffered through an RS232 Transceiver MN6 and brought to
the DB9 male connector J7.
Figure 4-5.
UART
MN6
MAX3232CSE
+3V3
16
R45
100K
PA10
PA9
TP5
SMD
+3V3
C40
100nF
C1+
V+
C1-
V-
C2+
1
C38
100nF
2
6
3
4
C41
100nF
R46
100K
15
R47
0R
R48
0R
TP6
SMD
J7
1
6
2
7
3
8
4
9
5
C42
100nF
11
12
10
9
GND
T1IN
R1OUT
T2IN
R2OUT
C2T1OUT
R1IN
T2OUT
R2IN
5
14
13
7
8
DGND
DGND
11
+3V3
VCC
10
C39
100nF
FGND
4.3.7
USART
The Universal Synchronous/Asynchronous Receiver Transmitter (USART) provides one full duplex universal synchronous/asynchronous serial link. The data frame format is extensively configurable (data
length, parity, number of stop bits) to support a broad range of serial communication standards. The
USART is also associated with PDC channels for TX/RX data access.
Note:
For design optimization purposes, both transmitters have been implemented on the same
PIO lines, that is PA21, 22, 23, 24 25.
To avoid any electrical conflict, the RS485 transceiver is isolated from the receiving line PA21.
Should you need to implement an RS485 channel in place of the RS232, follow the procedure below:
1. make sure your software will permanently set PA23 to a high level - this will permanently disable the
RS232 receiver.
2. solder a shunt resistor in place of R25 (a solder drop will do).
SAM4S-EK Development Board User Guide
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11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.3.8
RS232
SAM4S-EK connects the USART1 bus (including TXD, RXD, RTS, CTS handshake signal controls and
EN command) to the DB9 male connector J5 through the RS232 Transceiver MN5.
USART
USART
C31
4.7uF
C32
100nF
TXD1
RXD1
RTS1
CTS1
V+
C1C2+
23
19
PA23
R31
0R
5
PA22
PA21_232
PA24
PA25
R33
R34
R35
R36
R37
0R
0R
0R
0R
47K
7
10
8
11
9
12
+3V3
3
PA21_232
20
2
V-
C35
100nF
C36
100nF
R32
47K
JP31
6
C34
100nF
1
2
PA21
C1+
C33
100nF
21
DGND
VCC
C2C3+
GND
4
24
J5
1
6
2
7
3
8
4
9
5
C37
100nF
SD
EN
C3-
T1IN
R1OUT
T2IN
R2OUT
T3IN
R3OUT
T1OUT
R1IN
T2OUT
R2IN
T3OUT
R3IN
22
18
15
17
14
16
13
R38
0R
DGND
11
3
1
+3V3
+3V3
PA21_485
MN5
ADM3312EARU
10
Figure 4-6.
DGND
FGND
4.3.9
RS485
As noticed above, the USART1 is shared with the RS485 port, connected to the transceiver MN4, connected to the 3-point connector J4. The design includes selectable jumpers for RS485 bus termination
resistors selection (JP10, JP11, JP12).
Figure 4-7.
RS485
+3V3
+3V3
RS 485
R23
10K
R24
0R nm
MN4
ADM3485ARZ
RXD1
PA21_485
R25
0R nm
1
CTS1
PA25
R26
0R
2
RTS1
PA24
R27
0R
3
TXD1
PA22
R28
0R
4
JP28
Header2 nm
RO
RE
VCC
GND
+3V3
8
5
A
B
J4
1
DE
DI
JP10
Header2
C30
100nF
6
7
2
DGND
3
R29
120R
JP11
Header2
JP12
Header2
FGND
R30
0R nm
DGND
4.3.10
Display Interface
The SAM4S-EK carries a TFT Transmissive LCD module with touch panel, FTM280C34D. Its integrated
driver IC is ILI9325. The LCD display area is 2.8 inches diagonally measured, with a native resolution of
240 x 320 dots.
4.3.11
LCD Module
The LCD module gets reset from the NRST signal. As explained, this NRST is shared with the JTAG port
and the push-button BP1. The LCD chip select signal is connected to NCS1; the jumper JP13 can disconnect it so that this PIO line is available for other custom usage.
The SAM4S communicates with the LCD through PIOC where an 8-bit parallel “8080-like” protocol data
bus has to be implemented by software.
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11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Figure 4-8.
LCD Block
+3V3
DGND
+ C43
10uF
PC[0..31]
C44
100nF
C45
100nF
DGND
R49
47K
Z7
DGND
J8
FH26-39S-0.3SHW
PC13
PC22
PC23
PC24
PC25
PC26
PC27
PC28
PC29
PC30
PC31
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
LCD_DB17
LCD_DB16
LCD_DB15
LCD_DB14
LCD_DB13
LCD_DB12
LCD_DB11
LCD_DB10
LCD_DB9
LCD_DB8
LCD_DB7
LCD_DB6
LCD_DB5
LCD_DB4
LCD_DB3
LCD_DB2
LCD_DB1
LCD_DB0
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
+3V3
PC11
PC8
PC19
R56
10K
PC15
JP13
Header2
NRST
NRST
LED_A
R59
0R
LED_K1
LED_K2
LED_K3
LED_K4
Y_UP
Y_DOWN
X_RIGHT
X_LEFT
R58
4.7K
DGND
X_RIGHT
Y_UP
X_LEFT
Y_DOWN
DGND
PIN 39
PINs
on
BOT
FTM280C34D
PIN 1
DGND
DGND
NOT POPULATED
LCD_DB0
R61
LCD_DB4
LCD_DB2
LCD_DB3
LCD_DB1
LCD_DB8
LCD_DB6
LCD_DB7
LCD_DB5
1
2
3
4
1
2
3
4
LCD_DB9
R63
DGND
4.3.12
DGND
Six slots on PCB for LCD shield
LCD
D1
PACDN044Y5R nm
TVS, SOT23-5
2
DGND
3
4
5
1
The part is placed as
close as possible to J8
VDD
DB17
DB16
DB15
DB14
DB13
DB12
DB11
DB10
DB9
DB8
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
VDD
RD
WR
RS
CS
RESET
IM0
IM1
GND
LED-A
LEDK1
LEDK2
LEDK3
LEDK4
Y+
YX+
XNC
GND
4.7K nm
8
7
6
5
8
7
6
5
RA2
4.7Kx4 nm
RA3
4.7Kx4 nm
4.7K nm
DGND
Backlight Control
The LCD backlight is made of four integrated white chip-LEDs arranged in parallel. These are driven by
an AAT3155 charge pump, MN8.The AAT3155 is controlled by the SAM4S through a single PIO line
PC13 interface; the 0 Ohm resistor R68 is mounted in series on this line, which permits to use it for other
custom purposes. In that case, the pull-up resistor R64 maintains the charge pump permanently enabled
by default.
On the anode drive line, a 0 Ohm resistor R59 is implemented in series for an optional current limitation.
Figure 4-9.
Backlight Control
MN8
AAT3155ITP-T1
+3V3
10
PC13
+3V3
R68
0R
R64
47K
C1+
C2+
C1EN/SET
C2-
7
C54
1uF
C55
1uF
9
11
5
FB1
BN03K314S300R
OUTCP
IN
C57
4.7uF
4
GND
D1
D2
D3
D4
6
TP7
8
LED_A
3
2
1
12
LED_K1
LED_K2
LED_K3
LED_K4
C56
1uF
DGND
DGND
SAM4S-EK Development Board User Guide
LCD BACKLIGHT
4-7
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.3.13
Touch Screen Interface
The LCD module integrates a 4-wire touch panel controlled by MN7 (ADS7843) which is a slave device
on the SAM4S SPI bus. The controller sends back the information about the X and Y positions, as well
as a measurement for the pressure applied to the touch panel. The touch panel can be used with either
a stylus or a finger.
The ADS7843 touch panel controller connects to the SPI0 interface via the NPCS0 control signal. Two
interrupt signals are connected and provide events information back to the microcontroller: PenIrq and
Busy.
Note:
PenIrq (PA16) is shared with ZigBEE signal IRQ0.
Busy (PA17) is shared with ZigBEE signal IRQ1.
Therefore, if using a ZigBEE interface in concurrence with the TouchScreen controller, take
care not to have both drivers enabled at the same time on either PA16 or PA17.
For that purpose, 0 Ohm resistors have been implemented on these PIO lines in order to disconnect
either end driver from the other:
„
On the touch panel controller side, R67 and R69.
„
On ZigBEE side, R117 and R120.
for further information, refer to the “Schematics” section.
Touch ADC auxiliary inputs IN3/IN4 of the ADS7843 are connected to test point (TP8, TP9) for optional
function extension.
Figure 4-10. Touch Panel Control
+3V3
R62
100K
MN7
ADS7843E
X_RIGHT
Y_UP
X_LEFT
Y_DOW N
TP8
SMD
2
3
4
5
TP9
SMD
R72
100K
AGND_TP
R73
100K
DCLK
DIN
DOUT
CS
BUSY
PENIRQ
7
8
4.3.14
XP
YP
XM
YM
IN3
IN4
VREF
VCC1
VCC2
GND
16
14
12
15
+3V3
PA14
PA13
PA12
R66
0R
PA11
13
11
R67
0R
PA17
9
1
10
R70
0R
6
R65
100K
R69
C58
100nF
C59
100nF
C60
100nF
R71
1R
PA16
+3V3
L2
10uH/100mA
C61
4.7uF
AGND_TP
0R
R74
0R
DGND
JTAG/ICE
A standard 20-pin JTAG/ICE connector is implemented on the SAM4S-EK for the connection of a compatible ARM JTAG emulator interface, such as the SAM-ICE from Segger.
Notes: 1. The NRST signal is connected to BP1 system button and is also used to reset the LCD
module. The 0 ohm resistor R44 may be removed in order to isolate the JTAG port from
this system reset signal.
2. The TDO pin is in input mode with the pull-up resistor disabled when the Cortex M3 is
not in debug mode. To avoid current consumption on VDDIO and/or VDDCORE due to
floating input, the internal pull-up resistor corresponding to this PIO line must be
enabled.
4-8
11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Figure 4-11. JTAG Interface
+3V3
R39
100K
R40
100K
R41
100K
R42
100K
R43
100K
PB4
PB6
PB7
PB5
NRST
R44
0R
J6
1
3
5
7
9
11
13
15
17
19
VTref
Vsupply
GND1
nTRST
GND2
TDI
GND3
TMS
GND4
TCK
GND5
RTCK
GND6
TDO
GND7
nSRST
DBGRQ GND8
DBGACK GND9
2
4
6
8
10
12
14
16
18
20
DGND
4.3.15
Audio Interface
The SAM4S-EK board supports both audio recording and playback.
The audio volume can be adjusted using the potentiometer RV1, and the microphone amplifier gain can
be adjusted via jumpers (fixed gain of 24 or 26 dB).
4.3.16
Microphone Input
The embedded microphone is connected to an audio pre-amplifier using the TS922 operational amplifier
(MN11). The gain is set by using JP14 and JP15 jumpers; both must be set or removed at the same
time.
By modifying the jumper positions, you can select each of the following gain values:
„
20 dB (default setting, both JP14 and JP15 are off)
„
26 dB (both JP14 and JP15 are on).
Note:
3. The TB1 series 0 Ohm resistor is a reservation for future impedance adaptation facility.
Under specific amplifier settings conditions, this enables the easy insertion of a capacitor or any other bipolar device on the audio path. On the other hand, R83 is a default
0 Ohm resistor that enables the disconnection of PB0 from the audio input path for custom usage.
4. The audio pre-amplifier MN11 is powered by a dedicated low dropout regulator
MIC5219-3.3 (MN14).
SAM4S-EK Development Board User Guide
4-9
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
Figure 4-12. Microphone Input
AUDIO IN
C62
100pF
AVDD
R77
470R
C63
22uF
R78
1K
R79
1K
R80
1K
AGND
2
MIC1
SVB6050
R82
1K
R84
1K
C68
1uF
R85
1K
C69
1nF
C73
22uF
R88
470R
3
R81
100R
1
R83
0R
PB0
C71
22nF
IN1+
R87
47K
AVDD
VCC
C74
100nF
6
5
R93
100K
AGND
OUT2
GND
VCC33
8
JP15
Header2
R90
100K
C77
4.7uF
Header2
IN1-
AGND
AVDD
AGND
JP14
C72
1nF
7
AGND
47K
OUT1
R86
47K
AGND
47K
R76
MN11
TS922
2
1
C67
1uF
R75
FB2
BN03K314S300R
4
R91
0R
IN2DGND
AGND
IN2+
JP14 and JP15 should be set
or removed together
AGND
AGND
4.3.16.1 Headphone Output
The SAM4S-EK evaluation kit supports mono/stereo audio playback driven by a TPA0223 audio amplifier connected to two DAC channels of the microcontroller.
The TPA0223 is a 2W mono Bridge-Tied-Load (BTL) amplifier designed to drive speakers with as low as
4 Ohm impedance. The amplifier can be reconfigured on the fly to drive two stereo Single-Ended (SE)
signals into head phones.
Figure 4-13. Headphone Output
J10
1
2
AUDIO OUT
3
+ C80
10uF
C79
1uF
3
VCC33
VDD
RO/MO+
6
C81
C82
100nF
220uF-TAN-6.3V
R95
1K
JP17
TP12
Test Pad SQ-40TH
0.47uF
33K
Header2
R99
47K
C85
0.47uF R100
33K
JP19
Header2
R104
47K
R105
5
1
33K
AGND
C83
1K
220uF-TAN-6.3V
RIN
AGND
MONO-IN
ST/MN
SHUTD0WN
9
10
BYPASS
LIN
GND
7
2
4
R101
100K
R103
100K
C86
0.47uF
R102
JP20
Header2
VDD_AMP
100K
C87
1uF
8
AGND
11
AUDIO_OUTL C88
R98
LO/MO-
PAD
C84
AGND
+
R97
DGND
0.47uF
J11
5 Phonejack Stereo 3.5
4
3
2
1
VDD_AMP
2
JP29
PB13
MN13
TPA0223DGQ
FB3
BN03K314S300R
+
1
+5V
AGND
AGND
AGND
+5V
2
1
C91
4.7uF
4
DGND
MN14
MIC5219-3.3YMM
3
IN
OUT
EN
BYP
GND
GND
GND
GND
VCC33
+ C92
100uF-TAN-6.3V
5
6
7
8
C93
470pF
DGND
DGND
DGND
4-10
11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Using a readily available 1/8-in. (3,5 mm) stereo headphone jack, the control switch is closed when no
plug is inserted. When closed, a 100-kOhm/1-kOhm divider pulls the ST/MN input low. When a jack plug
is inserted, the 1-kOhm resistor is disconnected and the ST/MN input is pulled high. The mono speaker
(J10 connector) is also physically disconnected from the RO/MO+ output so that no sound is heard from
the speaker while the headphones are inserted.
4.3.17
USB Device
The SAM4S UDP port is compliant with the Universal Serial Bus (USB) rev 2.0 Full Speed device specification. J15 is a micro B-type receptacle for USB device.
Both 27-Ohm resistors R114 and R116 build up a 90-Ohm differential impedance together with the
(embedded) 6-Ohm output impedance of the SAM4S full speed channel drivers.
R110 and R112 build up a divider bridge from VBUS +5V to implement plug-in detection (5V level gets
lowered to a PIO compatible 3.3V level) through PC21.
Figure 4-14. USB
J15
USB Micro B
G
7
6
5
ID
4
D+
3
RV2
V5.5MLA0603
D-
2
FGND
5V
1
8
9
RV1
V5.5MLA0603
PC21
R110
47K
R112
68K
C94
10pF
DGND
FGND
DGND
4.3.18
PB10
R114
27R
PB11
R116
27R
Analog Interface
4.3.18.1 Analog Reference
The 3V voltage reference is based on an LM4040 (Precision Micropower Shunt Voltage Reference).
This ADVREF level can be set as 3V or 3.3V via the jumper JP2.
Figure 4-15. Analog Vref
VCC33
1
+5V
ADVREF
1
2
ADVREF
C5
100nF
JP2
R13
2.2K
3
SAM
SAM4S
MN2
LM4040-2.5
DGND
DGND
SAM4S-EK Development Board User Guide
4-11
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.3.18.2 Analog Input
The BNC connector CN1 is connected to the ADC port PB1 as an external analog input. An on-board 50Ohm resistor termination can be applied by closing jumper JP16. A low pass filter can be implemented
for the BNC connector CN1 by replacing R94 and C78 with custom resistor and capacitor values,
depending on your application requirements.
A 10-KOhm potentiometer (VR1) is also connected to this channel to implement an easy access to ADC
programming and debugging (or implement an analog user control like display brightness, volume, etc.).
Either of these two functions can be selected by jumper JP18.
Figure 4-16. ADC Input
CN1
BNC
R94
0R
JP16
Header2
C78
10nF
R96
49.9R
3
DGND
AD5
VCC33
2
PB1
Potentiometer
2
C89
10nF
3
VR1
10K VR
1
1
JP18
ADC
DGND
4.3.18.3 Analog Output
The BNC connector CN2 is connected to the DAC port PB14 and provides an external analog output. An
on-board 50-Ohm resistor termination can be enabled by closing jumper JP21. A filter can be implemented on this output channel by replacing R106 and C90 with appropriate resistor and capacitor
values, depending on the application requirements.
Figure 4-17. DAC Output
CN2
BNC
R106 SOLDER DROP 2 pins open.Normal
0R
2
1
5
1
2
3
4
JP21
C90
PB14
SD1
2.2uF
2
1
SD2
R109
49.9R 1%
AUDIO_OUTL
DAC01
DGND
4.3.19
DAC
QTouch Elements
QTouch keys consist in a series of sensors formed by the association of a copper area and the capacitive effect of human fingers approaching it.
4.3.19.1 Keys
The SAM4S-EK implements five individual capacitive touch keys (UP, DOWN, RIGHT, LEFT and
VALID) using five pairs of PIO.
4-12
11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Figure 4-18. QST Keys
PC25
R51
1K
C47
22nF
PC24
PC31
R53
K1
QTouch Key
1K
C49
22nF
PC30
PC29
R55
1K
C51
22nF
PC28
PC23
R57
1K
C52
22nF
PC22
PC27
R60
1K
C53
22nF
PC26
QTOUCH
4.3.19.2 Slider
A group of channels forms a Slider. A Slider is composed of three channels for a QTouch acquisition
method using three pairs of PIO. Such a sensor is used to detect a linear finger displacement on a sensitive area. A typical implementation is volume control.
Figure 4-19. QT_Slider
S1
QTouch Slider
SR
PA1
R50
1K
C46
22nF
SL
PA0
PA3
R52
1K
SM
C48
22nF
PA2
SR
PA5
R54
1K
C50
22nF
PA4
22nF use X7R
4.3.20
User Buttons
There are two mechanical user buttons on the SAM4S-EK, which are connected to PIO lines and defined
to be "left" and "right" buttons by default.
In addition, a mechanical button controls the system reset, signal NRST.
Figure 4-20. System Buttons
BP1
1
2
3
4
BP2
1
2
3
4
BP3
1
2
3
4
NRST
JP25
PB3
JP26
PC12
DGND
SAM4S-EK Development Board User Guide
4-13
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.3.21
LEDs
There are three LEDs on the SAM4S-EK board:
„
A blue LED (D2) and a green LED (D3), which are user defined and controlled by the GPIO.
„
A red LED (D4), which is a power LED indicating that the 3.3V power rail is active. It is also controlled
by the GPIO and can be treated as a user LED as well. The only difference with the two others is that
it is controlled through a MOS transistor. By default, the PIO line is disabled; a pull-up resistor controls
the MOS to light the LED when the power is ON).
Figure 4-21. LEDs
+3V3
PA19
R111
220R
D2
Blue-led
PA20
R113
220R
D3
Green-led
PC20
R115
100K
1
Q1
IRLML2502
2
3
R117
220R
D4
Red-led
DGND
4.3.22
SD/MMC Card
The SAM4S EK has a high-speed 4-bit multimedia MMC interface, which is connected to a 4-bit
SD/MMC micro card slot featuring a card detection switch.
Figure 4-22. SD Card
4
3
2
1
+3V3
R18
10K
RA1
68KX4
J3
TF01A
5
6
7
8
R17
10K
PA30
PA31
1
2
3
4
5
6
7
8
PA6
10
9
PA26
PA27
PA28
PA29
R20
0R
+ C25
10uF
DAT2
DAT3
CMD
VCC
CLK
VSS
DAT0
DAT1
GND
CD
Sh1
Sh2
Sh3
11
12
13
DGND
C26
100nF
DGND
4.3.23
ZigBEE
SAM4S has a 10-pin male connector for the RZ600 ZigBEE module.
Note:
4-14
11139A–ATARM–29-Nov-11
0 Ohm resistors have been implemented in series with the PIO lines that are used elsewhere in the design, thereby enabling their individual disconnection, should a conflict occur
in your application.
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Figure 4-23. ZigBEE Interface
J16
ZB_RSTN
IRQ1_ZBEE
SPIO_NPCS2#
MISO
PA18 R118
PA17 R119
PB2
PA12
1
3
5
7
9
0R
0R
2
4
6
8
10
R120
R121
0R
0R
C95
18pF
IRQ0_ZBEE
SLP_TR
MOSI
SPCK
PA16
PA15
PA13
PA14
C96
2.2nF
JP27
+3V3
C97
2.2uF
DGND
4.3.24
PIO Expansion
The SAM4S product features three PIO controllers, PIOA, PIOB and PIOC, which are multiplexed with
the I/O lines of the embedded peripherals. Each PIO Controller controls up to 32 lines (16 for PIOB).
Expansion ports J12, J13 and J14 provide PIO lines access for customer defined usage.
Figure 4-24. PIO Expansion
PB[0..14]
PA[0..31]
PC[0..31]
JP23
+5V
1
J12
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13
PC14
PC15
+3V3
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
DGND
Note:
JP24
+5V
+3V3
3
1
J13
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
PC16
PC17
PC18
PC19
PC20
PC21
PA6
PA7
PA8
PA9
PA10
PA11
PA12
PA13
PA14
PA15
+3V3
DGND
+3V3
DGND
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
+3V3
3
2
+3V3
3
2
1
2
JP22
+5V
J14
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
PA16
PA17
PA18
PA19
PA20
PA21
PA22
PA23
PA24
PA25
PA26
PA27
PA28
PA29
PA30
PA31
1
3
5
7
9
11
13
15
17
19
21
23
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
+3V3
DGND
2
4
6
8
10
12
14
16
18
20
22
24
PB8
PB9
PB10
PB11
PB12
PB13
PB14
+3V3
DGND
+3V3
DGND
All PIO lines are available on these expansion connectors, except those that are used for
the QTouch elements.
SAM4S-EK Development Board User Guide
4-15
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.4
Configuration
This section describes the PIO usage, the jumpers, the test points and the solder drops of a SAM4S-EK
board.
4.4.1
PIO Usage
Table 4-1. PIO Port A Pin Assignments and Signal Descriptions
No
I/O
Line
Peripheral
A
Peripheral
B
Peripheral
C
Extra Function
System
Function
1
PA0
PWMH0
TIOA0
A17
WKUP0
QTouch slider (left) SNS
2
PA1
PWMH1
TIOB0
A18
WKUP1
QTouch slider (left) SNSK
3
PA2
PWMH2
SCK0
DATRG
WKUP2
QTouch slider (middle) SNS
4
PA3
TWD0
NPCS3
5
PA4
TWCK0
TCLK0
WKUP3
QTouch slider (right) SNS
6
PA5
RXD0
NPCS3
WKUP4
QTouch slider (right) SNSK
7
PA6
TXD0
PCK0
8
PA7
RTS0
PWMH3
9
PA8
CTS0
AD12BTR
G
10
PA9
URXD0
NPCS1
11
PA10
UTXD0
NPCS2
12
PA11
NPCS0
PWMH0
13
PA12
MISO
PWMH1
MISO_TSC
ZigBEE MISO
14
PA13
MOSI
PWMH2
MOSI_TSC
ZigBEE MOSI
15
PA14
SPCK
PWMH3
SPCK_TSC
ZigBEE CLK
16
PA15
TF
TIOA1
PWML3
WKUP14 / PIO_DCEN1
ZigBEE SLPTR
17
PA16
TK
TIOB1
PWML2
WKUP15 / PIO_DCEN2
IRQ_TSC
ZigBEE IRQ0
18
PA17
TD
PCK1
PWMH3
AD0
BUSY_TSC
ZigBEE IRQ1
19
PA18
RD
PCK2
A14
AD1
ZigBEE RSTN
20
PA19
RK
PWML0
A15
AD2/ WKUP9
Blue LED (UserLED1)
21
PA20
RF
PWML1
A16
AD3/ WKUP10
Green LED (UserLED2)
22
PA21
RXD1
PCK1
23
PA22
TXD1
NPCS3
24
PA23
SCK1
25
PA24
26
Comment
QTouch slider (middle) SNSK
MCI card detection
WKUP5
PWMFI0
WKUP6
XIN32
CLK32KHz
XOUT32
CLK32KHz
UART receive data
UART transmit data
WKUP7
WKUP8
NPCS0# (TSC)
AD8
USART RXD
NCS2
AD9
USART TXD
PWMH0
A19
POI_DCCLK
RTS1
PWMH1
A20
POI_DC0
USART RTS
PA25
CTS1
PWMH2
A23
POI_DC1
USART CTS
27
PA26
DCD1
TIOA2
MCDA2
POI_DC2
MCI data bit 2
28
PA27
DTR1
TIOB2
MCDA3
POI_DC3
MCI data bit 3
29
PA28
DSR1
TCLK1
MCCDA
POI_DC4
MCI command
4-16
11139A–ATARM–29-Nov-11
USART transceiver enable
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Table 4-1. PIO Port A Pin Assignments and Signal Descriptions (Continued)
No
I/O
Line
Peripheral
A
Peripheral
B
Peripheral
C
Extra Function
System
Function
30
PA29
RI1
TCLK2
MCCK
POI_DC5
31
PA30
PWML2
NPCS2
MCDA0
WKUP11 / POI_DC6
MCI data bit 0
32
PA31
NPCS1
PCK2
MCDA1
POI_DC7
MCI data bit 1
Comment
MCI clock
Table 4-2. PIO Port B Pin Assignments and Signal Descriptions
No
I/O
Line
Peripheral
A
Peripheral
B
Peripheral
C
1
PB0
PWMH0
AD4
Microphone input
2
PB1
PWMH1
AD5
Analog input
3
PB2
URXD1
NPCS2
AD6 / WKUP12
ZigBee chip select
4
PB3
UTXD1
PCK2
AD7
User push-button 1
5
PB4
TWD1
PWMH2
6
PB5
TWCK1
PWML0
7
Extra Function
System
Function
TDI
Comment
JTAG data in
TDO/
TRACESWO
JTAG data out
PB6
TMS/SWDIO
JTAG test mode select
8
PB7
TCK/SWCLK
JTAG clock
9
PB8
XOUT
CLK12MHz
10
PB9
XIN
CLK12MHz
11
PB10
DDM
USB DM
12
PB11
DDP
USB DP
13
PB12
PWML1
14
PB13
PWML2
PCK0
DAC0
Audio Output R
15
PB14
NPCS1
PWMH3
DAC1
Audio Output L
WKUP13
ERASE
SAM4S-EK Development Board User Guide
Flash erase selector
4-17
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
Table 4-3. PIO Port C Pin Assignments and Signal Descriptions
No
I/O Line
Peripheral A
Peripheral
B
1
PC0
D0
PWML0
EBI D0
2
PC1
D1
PWML1
EBI D1
3
PC2
D2
PWML2
EBI D2
4
PC3
D3
PWML3
EBI D3
5
PC4
D4
NPCS1
EBI D4
6
PC5
D5
EBI D5
7
PC6
D6
EBI D6
8
PC7
D7
EBI D7
9
PC8
NWR0/NWE
10
PC9
NANDOE
NAND Flash output enable
11
PC10
NANDWE
NAND Flash write enable
12
PC11
NRD
13
PC12
NCS3
14
PC13
NWAIT
15
PC14
NCS0
16
PC15
NCS1
17
PC16
A21/NANDALE
NAND Flash ALE
18
PC17
A22/NANDCLE
NAND Flash CLE
19
PC18
A0/NBS0
PWMH0
20
PC19
A1
PWMH1
TFT LCD RegSel
21
PC20
A2
PWMH2
Red LED (Power)
22
PC21
A3
PWMH3
USB Vbus detection
23
PC22
A4
PWML3
QTouch valid button SNS
24
PC23
A5
TIOA3
QTouch valid button SNSK
25
PC24
A6
TIOB3
QTouch up button SNS
26
PC25
A7
TCLK3
QTouch up button SNSK
27
PC26
A8
TIOA4
QTouch down button SNS
28
PC27
A9
TIOB4
QTouch down button SNSK
29
PC28
A10
TCLK4
AD13
QTouch left button SNS
30
PC29
A11
TIOA5
AD14
QTouch left button SNSK
31
PC30
A12
TIOB5
QTouch right button SNS
32
PC31
A13
TCLK5
QTouch right button SNSK
4-18
11139A–ATARM–29-Nov-11
Peripheral
C
Extra
Function
System
Function
Comments
TFT LCD write enable
TFT LCD read enable
PWML0
AD12
User push-button 2
AD10
LCD backlight control
NAND Flash chip select
PWML1
AD11
TFT LCD chip select
RDYBSY
NAND Flash RDY/BSY
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
4.4.2
Jumpers
The SAM4S-EK board jumpers are essentially used for two main purposes: functional selection or current measurement. Details are given below.
Table 4-4. Jumpers Setting
Designation
Label
Default Setting
JP1
JTAG
OPEN
JP2
ADVREF
1-2
Analog reference voltage selection between 3.3V (close 1-2) and
2.5V (close 2-3)
JP3
ERASE
OPEN
Close to reinitialize the Flash contents and some of its NVM bits.
JP4
TEST
Not populated
(OPEN)
JP5
VDDPLL
CLOSE
Access for current measurement on VDDPLL
JP6
VDDIO
CLOSE
Access for current measurement on VDDIO
JP7
VDDIN
CLOSE
Access for current measurement on VDDIN
JP8
VDDCORE
CLOSE
Access for current measurement on VDDCORE
JP9
CE FLASH
CLOSE
NCS0 enable NAND Flash chip select
JP10
RS485
OPEN
Maintain differential impedance for RS485 interface
JP11
RS485
CLOSE
Maintain impedance matching for RS485 interface
JP12
RS485
OPEN
Maintain differential impedance for RS485 interface
JP13
CS
CLOSE
NCS1 chip select LCD
JP14 - JP15
MIC GAIN0
CLOSE (both) 20db
OPEN (both) 26db
JP16
ADC input
OPEN
JP17 – JP19
MIC Gain stage
JP18
SELECT ADC INP
1-2
2-3
JP20
MONO/STEREO
CLOSE
Close to fix in mono speaker, no matter the stereo plug state
JP21
DAC output
OPEN
Close for impedance matching on DAC BNC port
JP22
PIO expansion J12
voltage supply
2-3
Set to 3.3V (position 1-2 sets to 5V)
JP23
PIO expansion J13
voltage supply
2-3
Set to 3.3V (position 1-2 sets to 5V)
JP24
PIO expansion J14
voltage supply
2-3
Set to 3.3V (position 1-2 sets to 5V)
JP25
BP2
CLOSE
Open to disconnect and free PB3 for custom usage
JP26
BP3
CLOSE
Open to disconnect and free PC12 for custom usage
JP27
ZIGBEE
CLOSE
Power supply connection/disconnection for the ZigBEE module
May also be used as a current measurement point
SAM4S-EK Development Board User Guide
Feature
Close to select the JTAG boundary scan of the SAM4S
Close for manufacturing test or fast programming mode
Close both to lower gain stage on microphone input.
Close for impedance matching on ADC BNC port
Close to mux RIN/LIN into MONO-IN path within audio PA
ADC input potentiometer
ADC input BNC
4-19
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
Table 4-5. Audio Input Configuration
4.4.3
JP17
JP19
MONO-STEREO INPUT
OFF
OFF
PIN test point (TP12)
OFF
ON
Left-in only
ON
OFF
Right-in only
ON
ON
Sum of Left-in and Right-in
Test Points
Some test points have been placed on the SAM4S-EK board for the verification of important signals.
Table 4-6. Test Points
4.4.4
Designation
Part
Description
TP1
Ring Hook
GND
TP2
Ring Hook
GND
TP3
Ring Hook
GND
TP4
Ring Hook
GND
TP5
Pad
UART TXD
TP6
Pad
UART RXD
TP7
Pad
LCD Backlight driver anode
TP8
Pad
Aux ADC input for Touch Screen controller
TP9
Pad
Aux ADC input for Touch Screen controller
TP10
Ring Hook
+5V
TP11
Ring Hook
+3V3
TP12
Pad
Optional Audio PA input
Solder Drops
There are two solder drops designed on the SAM4S-EK for isolation.
Table 4-7. Solder Drops
4.4.5
Designation
Default Setting
Feature
SD1
OPEN
Isolation of DAC output from shared channel (PB14)
SD2
CLOSE
Connects PB14 to the AUDIO_OUTL channel
Assigned PIO Lines, Disconnection Possibility
As pointed out in some previous interface description, 0 Ohm resistors have been inserted on the path of
the receiver PIO lines of the SAM4S-EK. These are the PIO lines connected to an external driver on the
board. The 0 Ohm resistors allow disconnecting each of these for custom usage (through PIO expansion
connectors for example). This feature gives the user an added level of versatility for prototyping a system
of his own. See the table below.
4-20
11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Table 4-8. Disconnecting Possibility
Designation
Default Assignment
PIO
R19
0R
PC18, RDY/BSY on NAND Flash
R20
0R
PA29
R22
DNP
Optional write protection on NAND Flash
R25
0R
PA21
R26
0R
PA25
R27
0R
PA24
R28
0R
PA22
R31
0R
PA23
R33
0R
PA22
R34
0R
PA21
R35
0R
PA24
R36
0R
PA25
R44
0R
NRST
R47
0R
PA9
R48
0R
R2OUT/MN5
R59
0R
LCD backlight LED anode
R66
0R
PA11
R67
0R
PA5
R68
0R
PC13
R69
0R
PA4
R70
0R
Vref TSC
R118
0R
PA3 ZB_RSTN
R119
0R
PA5 IRQ1_ZBEE
R120
0R
PA4 IRQ0_ZBEE
R121
0R
PA6 SLP_TR
Table 4-9. Default Not Populated Parts
Reference
J1, R1
Y1, R3, R7
Function
External clock resource input
Backup 12 MHz crystal
R6, R8
Isolation on 12 MHZ clock source and GPIO expansion
R9, R10
Isolation on 32 KHz clock source and GPIO expansion
R22
Optional write protection NAND Flash
R23
Optional pull-up for open drain output or equivalent device
R24, R30
SAM4S-EK Development Board User Guide
Differential impedance matching for RS485 cable
4-21
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
Table 4-9. Default Not Populated Parts
Reference
Function
D1
Optional ESD protection for LCD touch panel
R61, R63, RA2, RA3
JP4
Optional data bus termination for LCD controller
Test mode selection for the SAM chip
J2
Optional QFP socket for the SAM4 chip
K1
Virtual component for QTouch keys set - implemented as copper areas
S1
Virtual component for QTouch slider set - implemented as copper areas
TPxx
Surface-mounted test points (copper area)
4.5
Connectors
4.5.1
Power Supply Connector J9
The SAM4S-EK evaluation board can be powered from a 5VDC power supply connected to the external
power supply jack J9. The positive pole is the center pin.
Figure 4-25. Power Supply Connector J9
Table 4-10. Power Supply Connector J9 Signal Descriptions
4.5.2
Pin
Mnemonic
Signal Description
1
Center
+5vcc
2
Gnd
Ground reference
USART Connector J5 With RTS/CTS Handshake Support
Figure 4-26. Male RS232/USART Connector J5
4-22
11139A–ATARM–29-Nov-11
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
Table 4-11. Serial COM1 Connector J5 Signal Descriptions
4.5.3
Pin
Mnemonic
Signal Description
1, 4, 6, 9
NC
NO CONNECTION
2
TXD TRANSMITTED DATA
RS232 serial data output signal
3
RXD RECEIVED DATA
RS232 serial data input signal
5
GND
GROUND
7
RTS READY TO SEND
Active-positive RS232 input signal
8
CTS CLEAR TO SEND
Active-positive RS232 output signal
UART Connector J7
Male RS232/UART connector J7
Table 4-12. Male RS232/UART Connector J7 Signal Descriptions
4.5.4
Pin
Mnemonic
Signal Description
1, 4, 6, 7, 8, 9
NC
NO CONNECTION
2
TXD TRANSMITTED DATA
RS232 serial data output signal
3
RXD RECEIVED DATA
RS232 serial data input signal
5
GND
GROUND
USB Device Connector J15
Figure 4-27. Micro-B USB Connector J15
Table 4-13. Micro-B USB Connector J15 Signal Descriptions
Pin
Mnemonic
Signal Description
1
Vbus
5v power
2
DM
Data -
3
DP
Data +
4
Gnd
Ground
5
Shield
Shield
SAM4S-EK Development Board User Guide
4-23
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.5.5
TFT LCD Connector J8
One 39-pin connector is available on the board to connect the LCD module, backlight and touch screen.
Figure 4-28. LCD Connector J8
Table 4-14. LCD Connector J8 Signal Descriptions
4-24
11139A–ATARM–29-Nov-11
Pin
Mnemonic
Pin
Mnemonic
1
3V3
2
LCD_DB17 (PC7)
3
LCD_DB16 (PC6)
4
LCD_DB15 (PC5)
5
LCD_DB14 (PC4)
6
LCD_DB13 (PC3)
7
LCD_DB12 (PC2)
8
LCD_DB11 (PC1)
9
LCD_DB10 (PC0)
10
LCD_DB09 (NC)
11
LCD_DB08 (NC)
12
LCD_DB07
13
LCD_DB06 (NC)
14
LCD_DB05 (NC)
15
LCD_DB04 (NC)
16
LCD_DB03 (NC)
17
LCD_DB02 (NC)
18
LCD_DB01 (NC)
19
LCD_DB00 (NC)
20
3V3
21
RD (PC11)
22
WR (PC8)
23
RS (PC19)
24
CS (PC15)
25
RESET
26
IM0
27
IM1
28
GND
29
LED-A
30
LED-K1
31
LED-K2
32
LED-K3
33
LED-K4
34
Y UP
35
Y DOWN
36
X RIGHT
37
X LEFT
38
NC
39
GND
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
4.5.6
JTAG Debugging Connector J6
This JTAG connector is a 20-way Insulation Displacement Connector (IDC) keyed box header (2.54 mm
male) that mates with IDC sockets mounted on a ribbon cable. Its signal assignment is compatible with
the SAM-ICE or any similar third-party interface.
Figure 4-29. JTAG/ICE Connector J6
Table 4-15. JTAG/ICE Connector J13 Signal Descriptions
Pin
Mnemonic
1
VTref. 3.3V power
2
Vsupply. 3.3V power
3
nTRST TARGET RESET — Active-low
output signal that resets the target
4
GND
5
TDI TEST DATA INPUT — Serial data
output line, sampled on the rising edge
of the TCK signal
6
GND
7
TMS TEST MODE SELECT –
8
GND
9
TCK TEST CLOCK — Output timing
signal, for synchronizing test logic and
control register access
10
GND
11
RTCK
Input Return test clock signal from the
target
12
GND
13
TDO JTAG TEST DATA OUTPUT —
Serial data input from the target
14
GND
SAM4S-EK Development Board User Guide
Description
This is the target reference voltage. It is used to check if the target has power, to
create the logic-level reference for the input comparators and to control the output
logic levels to the target. It is normally fed from Vdd on the target board and must
not have a series resistor.
This pin is not connected in SAM-ICE. It is reserved for compatibility with other
equipment. Connect to Vdd or leave open in target system.
JTAG Reset. Output from SAM-ICE to the Reset signal on the target JTAG port.
Typically connected to nTRST on the target CPU. This pin is normally pulled
HIGH on the target to avoid unintentional resets when there is no connection.
Common ground
JTAG data input of target CPU. It is recommended that this pin is pulled to a
defined state on the target board. Typically connected to TDI on target CPU.
Common ground
JTAG mode set input of target CPU. This pin should be pulled up on the target.
Typically connected to TMS on target CPU. Output signal that sequences the
target’s JTAG state machine, sampled on the rising edge of the TCK signal.
Common ground
JTAG clock signal to target CPU. It is recommended that this pin is pulled to a
defined state on the target board. Typically connected to TCK on target CPU.
Common ground
Some targets must synchronize the JTAG inputs to internal clocks. To assist in
meeting this requirement, a returned and retimed TCK can be used to
dynamically control the TCK rate. SAM-ICE supports adaptive clocking which
waits for TCK changes to be echoed correctly before making further changes.
Connect to RTCK if available, otherwise to GND.
Common ground
JTAG data output from target CPU. Typically connected to TDO on target CPU.
Common ground
4-25
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
Table 4-15. JTAG/ICE Connector J13 Signal Descriptions (Continued)
Pin
Mnemonic
15
nSRST RESET —
16
GND
Common ground
17
RFU
This pin is not connected in SAM-ICE.
18
GND
Common ground
19
RFU
This pin is not connected in SAM-ICE.
20
GND
Common ground
4.5.7
Description
Active-low reset signal. Target CPU reset signal
SD/MMC - MCI Connector J3
Figure 4-30. SD/MMC Connector J3
Table 4-16. SD/MMC Connector J3 Signal Descriptions
4-26
11139A–ATARM–29-Nov-11
Pin
Mnemonic
Pin
Mnemonic
1
RSV/DAT3
2
CDA
3
GND
4
VCC
5
CLK
6
GND
7
DAT0
8
DAT1
9
DAT2
10
Card Detect
11
GND
12
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
4.5.8
Analog Connector CN1 & CN2
Figure 4-31. Analog Input Connector CN1 and Analog Output CN2, Bottom View
Table 4-17. Analog Input, Output Connector CN1, CN2 Signal Descriptions
4.5.9
Pin
Mnemonic
1, 2, 3, 4
GND
5
Analog input PB1 for CN1 and analog output PB13 for CN2 respectively
RS485 Connector J14
Figure 4-32. RS485 Connector J14
Table 4-18. RS485 J14 Signal Descriptions
Pin
Mnemonic
1
A - non-inverted RS485 signal A
2
Frame ground
3
B - non-inverted RS485 signal B
SAM4S-EK Development Board User Guide
4-27
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.5.10
Headphone Connector J11
Figure 4-33. Headphone J11
Table 4-19. Headphone J11 Signal Descriptions
Pin
Mnemonic
1
AGND
2
Out left
3
4
5
4.5.11
Out Right
ZigBEE Connector J16
Figure 4-34. ZigBee Connector J16
Table 4-20. Connector J16 Signal Descriptions
Function
Signal
Name
Port
Pin
Pin
Port
Signal
Name
Function
EEPROM for MAC address, CAP array
settings and serial number
TST: test mode activation
CLKM: RF chip clock output
Reset
/RST
1
2
Misc.
Interrupt
Request
IRQ
3
4
SLP_TR
SLP_TR
SPI chip
select
/SEL
5
6
MOSI
SPI MOSI
SPI MISO
MISO
7
8
SCLK
SPI CLK
Power
Supply
GND
9
10
VCC
VCC
4-28
11139A–ATARM–29-Nov-11
GND
VCC
Option on Misc. Port Set by
Zero Ohm Resistor or Solder Shunts
Voltage range: 1.8v to 5.5v, typically
regulated to 3.3v
SAM4S-EK Development Board User Guide
Evaluation Kit Hardware
4.5.12
PIO Expansion Port C Connector J12
Figure 4-35. PIO Expansion Connector J12
Table 4-21. Connector J12 Signal Descriptions
Pin
Mnemonic
Pin
Mnemonic
1
+5V or +3v3
2
+5V or +3v3
3
GND
4
GND
5
PC0
6
PC16
7
PC1
8
PC17
9
PC2
10
PC18
11
PC3
12
PC19
13
PC4
14
PC20
15
PC5
16
PC21
17
PC6
18
NC
19
PC7
20
NC
21
PC8
22
NC
23
PC9
24
NC
25
PC10
26
NC
27
PC11
28
NC
29
PC12
30
NC
31
PC13
32
NC
33
PC14
34
NC
35
PC15
36
NC
37
GND
38
GND
39
3V3
40
3V3
SAM4S-EK Development Board User Guide
4-29
11139A–ATARM–29-Nov-11
Evaluation Kit Hardware
4.5.13
PIO Expansion Port A Connector J13
Figure 4-36. PIO Expansion Connector J13
Table 4-22. Connector J13 Signal Descriptions
4-30
11139A–ATARM–29-Nov-11
Pin
Mnemonic
Pin
Mnemonic
1
+5V or +3v3
2
+5V or +3v3
3
GND
4
GND
5
NC
6
PA16
7
NC
8
PA17
9
NC
10
PA18
11
NC
12
PA19
13
NC
14
PA20
15
NC
16
PA21
17
PA6
18
PA22
19
PA7
20
PA23
21
PA8
22
PA24
23
PA9
24
PA25
25
PA10
26
PA26
27
PA11
28
PA27
29
PA12
30
PA28
31
PA13
32
PA29
33
PA14
34
PA30
35
PA15
36
PA31
37
GND
38
GND
39
3V3
40
3V3
SAM4S-EK Development Board User Guide
Section 5
Schematics
5.1
Schematics
This section contains the following schematics:
„
Block diagram
„
General information
„
Microcontroller
„
NAND Flash, serial interface
„
TFT LCD & Touch
„
Audio & Power Supply
„
USB, LEDs, push-buttons & ZigBEE
SAM4S-EK Development Board User Guide
5-1
11139A–ATARM–29-Nov-11
5
4
3
2
1
D
D
5 V Input
PHONE
JACK
AUDIO Out (DAC)
UART0
ATMEL
Cortex-M4 ARM Processor
SAM4S (LQFP100)
ADC/ DAC
USART1
USART1
PIO A, B, C
Sheet 6
ICE
QTOUCH
RS232
HSMCI
PIO A, B, C
Micro SD
NAND FLASH
AUDIO In (ADC)
POT
C
POWER
C
HE 10 RS485
MIC
POWER SUPPLY
(3.3V)
Sheet 4
TOUCH SCREEN
Sheet 5
ZIGBEE
INTERFACE
LEDs, Buttons
Board Configuration
Sheet
B
PIO A, B, C
Extension
Sheet 2
Sheet 3
HE 14
B
FS
DEVICE
USB
2.8"
240x320
TFT
HE 10
LCD INTERFACE
Sheet 7
A
A
A
REV
SAM4S-EK
INIT EDIT
MODIF.
SCALE
JH
DES.
08-Mar-11
DATE
1/1
Block Diagram
This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings.
5
4
3
2
1
XXX XX-XXX-XX
VER.
DATE
REV.
SHEET
A
1
7
5
4
REVISION HISTORY
D
REV
DATA
A
2011.03
3
SCHEMATICS CONVENTIONS
NOTE
ORIGINAL RELEASED
2
JUMPER and SOLDERDROP
PAGE
(1) Resistance Unit: "K" is "Kohm", "R" is "Ohm?
3
(2) "nm" means the component is not populated
by default
PAGE
C
1
2
3
4
5
6
7
TEST POINT
PAGE
DESCRIPTION
Block Diagram
Reference guide
Microcontroller
NAND Flash, RS232, RS485, MCI, JTAG
LCD, Touch items
Audio, AD/DA, Power
IO Expansion, USB, ZigBEE, LED, Button
3
4
5
6
DEFAULT
REFERENCE
FUNCTION
JP1
OPEN
Close to select JTAG boundary scan
JP2
1-2
Analog reference voltage selection between 3.3V and 3.0V
JP3
OPEN
Close to reinitialize the Flash contents and some of its NVM bits
JP4
OPEN
Close for manufacturing test or fast programming mode
JP5, JP6, JP7, JP8
CLOSE
Access for current measurement on each power rail
JP9
CLOSE
Nand Flash chip select enable
D
4
TABLE OF CONTENTS
1
JP11
CLOSE
RS485 bus termination enable
JP10, JP12
OPEN
RS485 pull resistor selectors
JP31
1-2
RS232 USART and RS485 selection
FUNCTION
5
JP13
CLOSE
LCD chip select enable
TP1, TP2, TP3, TP4
GND
6
JP14, JP15
OPEN
Sync close to degrade gain stage on microphone input
TP5
UART TXD
JP17, JP19
OPEN
Close to mux RIN/LIN into MONO-IN path within audio PA
TP6
UART RXD
JP16, JP21
OPEN
Close for impedance matching on AD/DA BNC port
JP18
1-2
ADC input selection between BNC port and potentiometer
TP7
LCD backlight driver anode
JP20
OPEN
Close to fix in mono speaker mode, no matter stereo plug state
TP8, TP9
Aux ADC input for TSC
JP29
1-2
AUDIO Amplifier power select between +5V and VCC33
JP30
1-2
DAC output between AUDIO left channel and BNC connector
TP12
Optional audio PA input
JP22, JP23, JP24
1-2
DC voltage selection between 3.3V and 5V on PIO expansion ports
JP25
CLOSE
Button BP2 disable
JP26
CLOSE
Button BP3 disable
JP27
CLOSE
Power consumption measure for ZigBEE module
REFERENCE
7
C
PIO MUXING
PIOA
B
USAGE
PIOA
USAGE
PIOB
USAGE
PIOC
USAGE
PIOC
USAGE
PA0
TSLIDR_SL_SNS
PA16
TSC_IRQ/ZB_IRQ0
PB0
MIC INPUT
PC0
D0
PC16
NAND_ALE
PA1
TSLIDR_SL_SNSK
PA17
TSC_BUSY/ZB_IRQ1
PB1
ANA INPUT
PC1
D1
PC17
NAND_CLE
PA2
TSLIDR_SM_SNS
PA18
ZB_RSTN
PB2
ZB_NPCS2
PC2
D2
PC18
NAND_RDYBSY
PA3
TSLIDR_SM_SNSK
PA19
LED_BLUE
PB3
USER_PB1
PC3
D3
PC19
PA4
TSLIDR_SR_SNS
PA20
LED_GREEN
PB4
JTAG
PC4
D4
PC20
PA5
TSLIDR_SR_SNSK
PA21
RXD1
PB5
JTAG
PC5
D5
PC21
PA6
MCI_CD
PA22
TXD1
PB6
JTAG
PC6
D6
PC22
TVALID_SNS
PA7
CLK_32K
PA23
COM1EN
PB7
JTAG
PC7
D7
PC23
TVALID_SNSK
PA8
CLK_32K
PA24
RTS1
PB8
CLK_12M
PC8
WR_LCD
PC24
TUP_SNS
PA9
RX_UART0
PA25
CTS1
PB9
CLK_12M
PC9
NAND_OE
PC25
TUP_SNSK
PA10
TX_UART0
PA26
MCI
PB10
USB_DDM
PC10
NAND_WE
PC26
TDWN_SNS
PA11
TSC_CS
PA27
MCI
PB11
USB_DDP
PC11
RD_LCD
PC27
TDWN_SNSK
PA12
MISO
PA28
MCI
PB12
ERASE
PC12
USER_PB2
PC28
TLEFT_SNS
PA13
MOSI
PA29
MCI
PB13
AUDIO OUT R
PC13
EN_LCD
PC29
TLEFT_SNSK
PA14
SPCK
PA30
MCI
PB14
AUDIO OUT L
PC14
NAND_NCS0
PC30
TRIGHT_SNS
PA15
ZB_SLPTR
PA31
MCI
PC15
NSC1_LCD
PC31
TRIGHT_SNSK
DEFAULT NO POPULATE PARTS
PAGE
3
REFERENCE
FUNCTION
B
J1, R1
External clock resource input
REGSEL_LCD
Y1, R3, R7
Backup 12MHz crystal
LED_RED(POWER)
R6, R8
Isolation between 12MHz clock source and GPIO line
USB_CNX
R9, R10
Isolation between 32KHz clock source and GPIO line
R22
Optional write protection on NAND flash
4
5
R24, R30
Differential impedance matching for RS485 cable
R25
Disconnect RS485 Receive data from PA21
D1
Optional ESD protection for LCD touch panel
R61, R62, RA2, RA3
Optional databus termination for LCD controller
A
A
A
REV
SAM4S-EK
INIT EDIT
MODIF.
SCALE
JH
DES.
08-Mar-11
DATE
1/1
Board Configuration
This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings.
5
4
3
2
1
XXX XX-XXX-XX
VER.
DATE
REV.
SHEET
A
2
7
5
4
3
2
1
PC[0..31]
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13
PC14
PC15
PC16
PC17
PC18
PC19
PC20
PC21
PC22
PC23
PC24
PC25
PC26
PC27
PC28
PC29
PC30
PC31
J1
SMA nm
1
3
5
R1
0R nm
PA[0..31]
PB8_XOUT
1
XIN32
3
2
Y3
32.768KHz
PB2
PB3
XOUT32
DGND
R12
0R
C4
20pF
PB10
PB11
PB2
7
PB3
9
PB10
88
PB11
89
PB2_URXD1_NPCS2_AD12B6
PB3_UTXD1_PCK2_AD12B7
AT91SAM4S-LQFP100
PB10_DDM
PB11_DDP
JP1
Header2 nm
C
+3V3
PB4
PB6
PB7
PB5
NRST
PB0
PB1
JTAGSEL
77
PB4
PB6
PB7
PB5
51
79
83
76
NRST
60
PB0
PB1
3
5
PB12
87
JTAGSEL
PB4_TWD1_PWMH2_TDI
PB6_TMS_SWDIO
PB7_TCK_SWCLK
PB5_TWCK1_PWML0_TDO
NRST
ADVREF
PB0_PWMH0_AD12B4
PB1_PWMH1_AD12B5
PB13_PWML2_PCK0_DACO0
VDDIO
VDDCORE
PA16
PC7
PA15
PA14
PC6
PA13
PA24
PC5
PC4
PA25
PA26
PC3
PA12
PA11
PC2
PA10
PA9
PC1
XOUT32
XIN32
VDDIO
SOCKET_THROUGHT_HOLE
LQFP100
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
PB14
XIN
XOUT
PC23
PB11
PB10
PB12
PC22
VDDIO
VDDCORE
VDDIO
GND
GND
27
95
GND
GND
70
45
100
PB13
99
PB14
DGND
JP5
Header2
L1
10uH-100mA
C22
100nF
R14
1R
+5V
2
PB13
C5
100nF
JP2
R13
2.2K
MN2
PB14
GNDANA
2
DGND
R107
0R
DGND
DGND
C15 100nF
DGND
PB[0..14]
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12
PB13
PB14
VDDPLL
DGND
VDDOUT
VDDIO
VDDIO
VDDPLL
VCC33
VDDIO
C14 100nF
C13 4.7uF nm
C12 100nF
C11 100nF
93
C
LM4040AIM3X-3.0
26
VDDPLL
VDDCORE
VDDCORE
85
VDDCORE
56
36
VDDCORE
C9 100nF
DGND
JP6
Header2
B
+3V3
TP1
VDDIN
TP2
TP3
TP4
JP7
Header2
C23
4.7uF
DGND
+ C24
10uF
A
JP8
VDDCORE Header2
DGND
DGND
C70
4.7uF
PC14
PA1
PC16
PA0
PC17
PA27
PC8
PA28
NRST
TEST
PC9
PA29
PA30
PC10
PA3
PA2
PC11
ADVREF
VDDPLL
VDDCORE
PC21
PB7
PC20
PA31
PC19
PB6
PC18
JTAGSEL
PB5
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
PB4
PA6
PA5
PC28
PA4
VDDCORE
1
PC25
PB13
PC24
A
NOT POPULATED
C8 2.2uF
C6 100nF
J2
Socket-QFP100 nm
C10 100nF
VDDIN
B
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
16
TEST
10
ADVREF
PB3
PC31
PB2
PC30
PB1
PC29
PB0
PA21
PA18
PC26
PA17
PC0
PA20
PC12
PA23
PC13
PA22
PC15
PA19
PC27
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
3
2
1
VDDOUT
VDDOUT
61
Header2 nm
11
TEST
PB12_PWML1_ERASE
VDDIN
JP4
PB14_NPCS1_PWMH3_DACO1
C7 100nF
JP3
VDDOUT
VDDIN
VDDCORE
+3V3
XIN32
R9
XOUT32 R10
PA0
PA1
PA2
PA3
PA4
PA5
PA6
0R nm PA7
0R nm PA8
PA9
PA10
PA11
PA12
PA13
PA14
PA15
PA16
PA17
PA18
PA19
PA20
PA21
PA22
PA23
PA24
PA25
PA26
PA27
PA28
PA29
PA30
PA31
1
96
74
72
67
66
55
53
52
49
48
46
44
42
41
33
31
30
28
12
14
18
24
15
20
22
34
38
39
57
59
63
64
81
C21 4.7uF
0R nm
VDDIO
R8
C20 4.7uF
PB8
PA0_PWMH0_TIOA0_A17
PA1_PWMH1_TIOB0_A18
PA2_PWMH2_SCK0_DATRG
PA3_TWD0_NPCS3
PA4_TWCK0_TCLK0
PA5_RXD0_NPCS3
PA6_TXD0_PCKO
PA7_RTS0_PWMH3
PA8_CTS0_AD12BTRG
PA9_URXD0_NPCS1
PA10_UTXD0_NPCS2
PA11_NPCS0_PWMH0
PA12_MISO_PWMH1
PA13_MOSI_PWMH2
PA14_SPCK_PWMH3
PA15_TF_TIOA1_PWML3
PA16_TK_TIOB1_PWML2
PA17_TD_PCK1_PWMH3_AD12B0
PA18_RD_PCK2_A14_AD12B1
PA19_RK_PWML0_A15_AD12B2
PA20_RF_PWML1_A16_AD12B3
PA21_RXD1_PCK1_AD12B8
PA22_TXD1_NPCS3_NCS2_AD12B9
PA23_SCK1_PWMH0_A19
PA24_RTS1_PWMH1_A20
PA25_CTS1_PWMH2_A23
PA26_DCD1_TIOA2_MCDA2
PA27_DTR1_TIOB2_MCDA3
PA28_DSR1_TCLK1_MCCDA
PA29_RI1_TCLK2_MCCK
PA30_PWML2_NPCS2_MCDA0
PA31_NPCS1_PCK2_MCDA1
3
PB9_XIN
XOUT
VDDIO
97
98
0R
0R nm
20pF
0R nm
R11
0R
R6
C19 100nF
12MHz
R5
C2
XIN
PB9
VDDIO
C3
20pF
0R
91
2
R7
R4
C18 100nF
Y2
DGND
DGND
D
20pF
VDDIO
Y1
DNP
69
3
C17 100nF
C1
DGND
DGND
MN1
AT91SAM4S-LQFP100
50
1
D
0R nm
C16 100nF
R3
25
47
43
40
37
35
32
29
58
62
65
68
23
21
71
19
73
75
78
80
82
84
86
90
92
94
13
17
54
4
6
8
R2
49.9R 1%
PC0_D0_PWML0
PC1_D1_PWML1
PC2_D2_PWML2
PC3_D3_PWML3
PC4_D4_NPCS1
PC5_D5
PC6_D6
PC7_D7
PC8_NWR0_NWE
PC9_NANDOE
PC10_NANDWE
PC11_NRD
PC12_NCS3_AD12B12
PC13_NWAIT_PWML0_AD12B10
PC14_NCS0
PC15_NCS1PWML1_AD12B11
PC16_A21_NANDALE
PC17_A22_NANDCLE
PC18_A0_NBS0_PWMH0
PC19_A1_PWMH1
PC20_A2_PWMH2
PC21_A3_PWMH3
PC22_A4_PWML3
PC23_A5_TIOA3
PC24_A6_TIOB3
PC25_A7_TCLK3
PC26_A8_TIOA4
PC27_A9_TIOB4
PC28_A10_TCLK4
PC29_A11_TIOA5_AD12B13
PC30_A12_TIOB5_AD12B14
PC31_A13_TCLK5_AD12B15
2
4
A
DGND
REV
DGND
SAM4S-EK
VDDIO
INIT EDIT
MODIF.
SCALE
JH
DES.
08-Mar-11
DATE
1/1
Microcontroller
This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings.
5
4
3
2
1
XXX XX-XXX-XX
VER.
DATE
REV.
SHEET
A
3
7
5
4
+3V3
PC[0..31]
D
MN3
MT29F2G08ABAEA
16
17
8
18
CLE
ALE
RE
WE
JP9
Header2
9
PC14
PC18 R19
+3V3
R21
47K
R22
0R nm
DGND
I/O0
I/O1
I/O2
I/O3
I/O4
I/O5
I/O6
I/O7
CE
7
19
0R
+3V3
NAND FLASH
R16
47K
PC17
PC16
PC9
PC10
PA[0..31]
1
R/B
WP
1
2
3
4
5
6
10
11
14
15
20
21
22
23
24
25
26
4
3
2
1
R15
47K
2
N.C28
N.C27
N.C26
N.C25
N.C24
N.C23
PRE
N.C22
N.C21
N.C20
N.C19
N.C18
N.C1
N.C2
N.C3
N.C4
N.C5
N.C6
N.C7
N.C8
N.C9
N.C10
N.C11
N.C12
N.C13
N.C14
N.C15
N.C16
N.C17
VCC
VCC
VSS
VSS
29
30
31
32
41
42
43
44
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
R17
10K
48
47
46
45
40
39
38
35
34
33
28
27
PA30
PA31
PA6
10
9
PA29
R20
+ C25
10uF
C27
100nF
C28
100nF
C29
1uF
+3V3
+3V3
RS 485
V+
B
R31
0R
5
PA22
PA21_232
PA24
PA25
R33
R34
R35
R36
R37
0R
0R
0R
0R
47K
7
10
8
11
9
12
+3V3
C2C3+
T1IN
R1OUT
T2IN
R2OUT
T3IN
R3OUT
3
1
CTS1
PA25
R26
0R
RTS1
PA24
R27
0R
3
TXD1
PA22
R28
T1OUT
R1IN
T2OUT
R2IN
T3OUT
R3IN
4
0R
18
15
17
14
16
13
R38
0R
R39
100K
UTXD0
URXD0
PA10
PA9
TP5
0R
R48
0R
TP6
JP11
Header2
2
6
V+
C1-
V-
C2+
GND
C2-
PB5
NRST
1
T1IN
R1OUT
T2IN
R2OUT
T1OUT
R1IN
T2OUT
R2IN
R40
100K
R41
100K
R42
100K
R43
100K
R44
0R
J6
HE10 20PTS
1
3
5
7
9
11
13
15
17
19
VTref
Vsupply
nTRST
GND1
TDI
GND2
TMS
GND3
TCK
GND4
RTCK
GND5
TDO
GND6
nSRST
GND7
DBGRQ GND8
DBGACK GND9
2
4
6
8
10
12
14
16
18
20
DGND
4
J7
1
6
2
7
3
8
4
9
5
5
14
13
7
8
DGND
DGND
A
A
REV
SAM4S-EK
FGND
INIT EDIT
MODIF.
SCALE
JH
DES.
08-Mar-11
DATE
1/1
NAND Flash & Serial IF
This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings.
5
4
B
ICE INTERFACE
3
C42
100nF
11
12
10
9
JP12
Header2
FGND
C38
100nF
15
R47
R29
120R
11
A
C1+
C41
100nF
R46
100K
3
PB4
PB6
PB7
10
R45
100K
C40
100nF
DGND
FGND
MN6
MAX3232CSE
+3V3
6
7
2
DGND
+3V3
+3V3
A
B
J4
1
DE
DI
JP10
Header2
C30
100nF
+3V3
UART
C39
100nF
GND
+3V3
8
5
1
6
2
7
3
8
4
9
5
22
DGND
VCC
RE
VCC
R30
0R nm
DGND
16
RO
J5
C37
100nF
C3-
1
JP28
Header2 nm
4
24
SD
EN
0R nm
2
C35
100nF
GND
19
PA23
PA21_232
R25
11
TXD1
RXD1
RTS1
CTS1
23
JP31
PA21_485
C
R24
0R nm
MN4
ADM3485ARZ
20
2
V-
C36
100nF
R32
47K
2
PA21
C1C2+
RXD1
6
C34
100nF
21
DGND
+3V3
PA21_485
C33
100nF
1
C26
100nF
DGND
10
C32
100nF
DGND
GND
CD
36
13
MN5
ADM3312EARU
C31
4.7uF
11
12
13
Sh1
Sh2
Sh3
37
12
USART
C1+
0R
DAT2
DAT3
CMD
VCC
CLK
VSS
DAT0
DAT1
+3V3
R23
10K
VCC
D
J3
TF01A
1
2
3
4
5
6
7
8
C
3
RA1
68Kx4
PA26
PA27
PA28
DGND
+3V3
SD CARD
R18
10K
5
6
7
8
+3V3
3
3
2
1
XXX XX-XXX-XX
VER.
DATE
REV.
SHEET
A
4
7
5
4
3
2
1
+3V3
PA[0..31]
+ C43
10uF
PC[0..31]
C44
100nF
C45
100nF
R49
47K
DGND
DGND
DGND
J8
FH26-39S-0.3SHW
D
PC13
PC22
PC23
PC24
PC25
PC26
PC27
PC28
PC29
PC30
PC31
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
LCD_DB17
LCD_DB16
LCD_DB15
LCD_DB14
LCD_DB13
LCD_DB12
LCD_DB11
LCD_DB10
LCD_DB9
LCD_DB8
LCD_DB7
LCD_DB6
LCD_DB5
LCD_DB4
LCD_DB3
LCD_DB2
LCD_DB1
LCD_DB0
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
+3V3
PC11
PC8
PC19
R56
10K
PC15
JP13
Header2
NRST
NRST
C
LED_A
R59
0R
LED_K1
LED_K2
LED_K3
LED_K4
Y_UP
Y_DOWN
X_RIGHT
X_LEFT
R58
4.7K
DGND
8
7
6
5
8
7
6
5
R63
1K
C47
22nF
PC24
PC31
R53
K1
QTouch Key
1K
C49
22nF
PC30
DGND
DGND
PC29
R55
1K
C51
22nF
PC28
PIN 39
PC23
PINs
on
BOT
R57
1K
C52
22nF
FTM280C34D
C
PC22
PIN 1
PC27
DGND
R60
1K
C53
22nF
DGND
PC26
QTOUCH
Six slots on PCB for LCD shield
LCD
RA2
4.7Kx4 nm
DGND
RA3
4.7Kx4 nm
X_RIGHT
Y_UP
X_LEFT
Y_DOWN
4.7K nm
B
D
R51
S1
QTouch Slider
SR
The part is placed as
close as possible to J8
PA1
3
LCD_DB9
4.7K nm
4
1
2
3
4
1
2
3
4
5
R61
LCD_DB4
LCD_DB2
LCD_DB3
LCD_DB1
LCD_DB8
LCD_DB6
LCD_DB7
LCD_DB5
1
LCD_DB0
Z7
PC25
VDD
DB17
DB16
DB15
DB14
DB13
DB12
DB11
DB10
DB9
DB8
DB7
DB6
DB5
DB4
DB3
DB2
DB1
DB0
VDD
RD
WR
RS
CS
RESET
IM0
IM1
GND
LED-A
LEDK1
LEDK2
LEDK3
LEDK4
Y+
YX+
XNC
GND
2
1K
C46
22nF
D1
PACDN044Y5R nm
TVS, SOT23-5
DGND
R50
SL
PA0
B
NOT POPULATED
PA3
DGND
R52
1K
SM
C48
22nF
+3V3
PA2
SR
R62
100K
MN7
ADS7843E
2
3
4
5
X_RIGHT
Y_UP
X_LEFT
Y_DOWN
TP8
XP
YP
XM
YM
BUSY
PENIRQ
TP9
7
8
R72
100K
DCLK
DIN
DOUT
CS
R73
100K
IN3
IN4
VREF
VCC1
VCC2
GND
16
14
12
15
+3V3
PA14
PA13
PA12
13
11
9
1
10
6
PA5
MN8
AAT3155ITP-T1
+3V3
R66
0R
PA11
R67
0R
PA17
10
R65
100K
R69
R70
0R
PA16
+3V3
PC13
R68
0R
C58
100nF
C59
100nF
C60
100nF
L2
10uH-100mA
+3V3
C2+
C1EN/SET
C2-
5
OUTCP
IN
C57
4.7uF
4
C61
4.7uF
PA4
C55
1uF
9
11
FB1
BN03K314S300R
1K
C50
22nF
7
C54
1uF
R64
47K
0R
R71
1R
C1+
R54
GND
D1
D2
D3
D4
6
TP7
8
LED_A
3
2
1
12
LED_K1
LED_K2
LED_K3
LED_K4
R74
0R
22nF use X7R
C56
1uF
DGND
A
A
DGND
AGND_TP
LCD TOUCH SCREEN
AGND_TP
LCD BACKLIGHT
DGND
A
REV
SAM4S-EK
INIT EDIT
MODIF.
SCALE
JH
DES.
08-Mar-11
DATE
1/1
TFT-LCD & QTouch
This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings.
5
4
3
2
1
XXX XX-XXX-XX
VER.
DATE
REV.
SHEET
A
5
7
5
4
3
AUDIO IN
R75
47K
R76
1
C62
100pF
AVDD
R77
470R
2
JP14
J9
Power Jack 2.1mm
1
2
Header2
47K
1
MN9
ZEN056V130A24LS
3
MN10
BNX002-01
1
2
D
R84
1K
2
R85
1K
C68
1uF
C69
1nF
3
R88
470R
R83
0R
R87
47K
AVDD
AGND
AGND
AGND
4
GND
MN12
MIC29152WU
Micrel's 1.5A LDO, TO263-5
VCC33
+3V3
FB2
BN03K314S300R
1
R91
0R
VIN
VOUT
SD
ADJ
3
5
R93
100K
C77
4.7uF
C
AGND
4
5
+ C75
C76
100uF-TAN-6.3V 100nF
DGND
R92
102K 1%
IN2+
JP14 and JP15 should be set
or removed together
C
DGND
J10
AGND
1
2
AUDIO OUT
CN1
BNC
R94
0R
AGND
JP17
TP12
Test Pad SQ-40TH
B
0.47uF
C82
100nF
R98
33K
Header2
R99
47K
C85
0.47uF R100
33K
JP19
Header2
R104
47K
R105
33K
5
LO/MO-
10
AGND
220uF-TAN-6.3V
R95
1K
R97
1K
C83
JP16
Header2
C78
10nF
R96
49.9R
220uF-TAN-6.3V
RIN
AGND
1
MONO-IN
ST/MN
SHUTD0WN
9
BYPASS
LIN
PAD
AUDIO_OUTL C88
C81
DGND
3
DGND
0.47uF
6
GND
7
R101
100K
2
R103
100K
4
C86
0.47uF
R102
VDD_AMP
100K
AD5
VCC33
2
JP18
PB1
1
3
C84
RO/MO+
JP20
Header2
C87
1uF
2
VR1
10K VR
B
8
Potentiometer
11
AGND
AGND
C89
10nF
3
+ C80
10uF
C79
1uF
VDD
+
3
VCC33
J11
5 Phonejack Stereo 3.5
4
3
2
1
VDD_AMP
2
JP29
PB13
MN13
TPA0223DGQ
+
1
+5V
FB3
BN03K314S300R
R89
169K 1%
IN2AGND
D
+ C98
220uF-ELE-16V
DGND
2
OUT2
6
+ C66
22uF
+5V
C74
100nF
R90
100K
4
5
6
PB0
8
VCC
JP15
Header2
AVDD
SG CG1
CG2
CG3
+5V
3
C71
22nF
IN1+
7
AGND
1
C72
1nF
R86
47K
AGND
C73
22uF
R81
100R
IN1OUT1
2
MIC1
SVB6050
+ C65
22uF
CV
1
AGND
C64
100nF
2
R82
1K
MN11
TS922
GND2
R80
1K
GND1
R79
1K
1
C67
1uF
6
R78
1K
3
C63
22uF
SV
ADC
AGND
DGND
AGND
CN3
BNC
3
R106
0R
JP21
Header2
+5V
VCC33
C90
DAC1
2.2uF
2
JP30
R109
49.9R
PB14
1
MN14
MIC5219-3.3YMM
2
3
IN
OUT
AUDIO_OUTL
1
C91
4.7uF
4
DGND
A
EN
BYP
GND
GND
GND
GND
+ C92
100uF-TAN-6.3V
5
6
7
8
DGND
C93
470pF
DAC
DGND
A
DGND
DGND
A
REV
SAM4S-EK
INIT EDIT
MODIF.
SCALE
JH
DES.
08-Mar-11
DATE
1/1
Audio & Power supply
This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings.
5
4
3
2
1
XXX XX-XXX-XX
VER.
DATE
REV.
SHEET
A
6
7
5
4
3
2
1
PB[0..14]
PA[0..31]
D
D
PC[0..31]
JP22
+5V
C
+3V3
+3V3
3
JP24
+5V
2
1
2
1
J13
J14
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
PIO C
DGND
JP23
+5V
J12
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13
PC14
PC15
+3V3
3
2
1
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
PC16
PC17
PC18
PC19
PC20
PC21
PA6
PA7
PA8
PA9
PA10
PA11
PA12
PA13
PA14
PA15
+3V3
+3V3
DGND
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
PA16
PA17
PA18
PA19
PA20
PA21
PA22
PA23
PA24
PA25
PA26
PA27
PA28
PA29
PA30
PA31
+3V3
DGND
2
4
6
8
10
12
14
16
18
20
22
24
PIO B
PB8
PB9
PB10
PB11
PB12
PB13
PB14
TWD1
PB4
R122
4.7K nm
TWCK1
PB5
R123
4.7K nm
+3V3
DGND
C
+3V3
PIO A
DGND
1
3
5
7
9
11
13
15
17
19
21
23
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
+3V3
+3V3
3
DGND
J15
USB Micro B
G
7
6
+3V3
R111
220R
PA19
5
ID
4
D+
3
RV2
V5.5MLA0603
D-
2
FGND
5V
1
8
9
D2
3
4
BP2
R113
220R
PA20
BP1
1
2
LED Blue
D3
1
2
LED Green
3
4
NRST
JP25
Header2
PB3
RV1
V5.5MLA0603
B
BP3
PC21
R110
R112
47K
68K
PC20
R115
1
2
100K
1
C94
10pF
DGND
Q1
IRLML2502
FGND
2
R117
220R
3
D4
LED Red
3
4
JP26
Header2
B
PC12
BUTTONS
DGND
DGND
DGND
PB10
R114
27R
PB11
R116
27R
LEDS
+3V3
+5V
USB
DGND
ZB_RSTN
IRQ1_ZBEE
SPIO_NPCS2#
MISO
A
PA18 R118
PA17 R119
PB2
PA12
0R
0R
1
3
5
7
9
J16
HE10 5x2
2
4
6
8
10
R120
R121
0R
0R
C95
18pF
Note:
Pin1 is not on the indentation side
Pin1
ZIGBEE
IRQ0_ZBEE
SLP_TR
MOSI
SPCK
PA16
PA15
PA13
PA14
C96
2.2nF
JP27
Header2
PROTOTYPE AREA
Pitch = 2.54MM
+3V3
A
C97
2.2uF
DGND
A
REV
HE10
SAM4S-EK
INIT EDIT
MODIF.
SCALE
JH
DES.
08-Mar-11
DATE
1/1
User IF & ZigBee
This agreement is our property. Reproduction and publication without our written authorization shall expose offender to legal proceedings.
5
4
3
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1
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VER.
DATE
REV.
SHEET
A
7
7
Section 6
Troubleshooting
6.1
Board Recovery
Closing JP3 and powering the board will assert ERASE and clear GPNVM bit 1, and thereby selects the
boot from the ROM by default. The MCU will boot from the internal ROM to enable a SAM-BA connection
through the UART. Connect the SAM4S-EK UART port (J3) to a PC COM port through an RS232 crossover cable.
You can then run the SAM-BA application from that PC to program the internal Flash of the MCU as well
as the GPNVM bit 1.
SAM4S-EK Development Board User Guide
6-1
11139A–ATARM–29-Nov-11
Section 7
Revision History
7.1
Revision History
Table 7-1.
Document
Comments
11139A
Initial version.
SAM4S-EK Development Board User Guide
Change Request
Ref.
7-1
11139A–ATARM–29-Nov-11
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11139A–ATARM–29-Nov-11