ATSAMB11-XPRO_技术文档

ATSAMB11 BluSDK SMART

SAM B11 Xplained Pro

USER GUIDE

Preface

The Atmel^®SAM B11 Xplained Pro evaluation kit is a hardware platform to

evaluate the ATSAMB11G18A microcontroller.

Supported by the Atmel Studio integrated development platform, the kit

provides easy access to the features of the Atmel ATSAMB11G18A and

explains how to integrate the device in a custom design.

The Xplained Pro MCU series evaluation kits include an on-board

Embedded Debugger, and no external tools are necessary to program or

debug the ATSAMB11G18A.

The Xplained Pro extension kits offers additional peripherals to extend the

features of the board and ease the development of custom designs.

Atmel-42664A-ATSAMB11-Xplained-Pro_User Guide-02/2016

Table of Contents

Preface............................................................................................................................ 1

1. Introduction................................................................................................................3

1.1. Features....................................................................................................................................... 3

1.2. Kit Overview................................................................................................................................. 3

2. Getting Started...........................................................................................................5

2.1. Xplained Pro Quick Start..............................................................................................................5

2.2. Design Documentation and Relevant Links................................................................................. 5

3. Xplained Pro.............................................................................................................. 6

3.1. Xplained Pro.................................................................................................................................6

3.2. Embedded Debugger................................................................................................................... 6

3.3. Xplained Pro Analog Module........................................................................................................7

3.3.1.

3.3.2.

3.3.3.

3.3.4.

Overview........................................................................................................................7

EDBG Interface..............................................................................................................8

Sample Rate..................................................................................................................8

Measurement Ranges and Accuracy.............................................................................8

3.4. Hardware Identification System....................................................................................................9

3.5. Power Sources.............................................................................................................................9

3.6. Xplained Pro Headers and Connectors......................................................................................10

3.6.1.

3.6.2.

Xplained Pro Standard Extension Header...................................................................10

Xplained Pro Power Header.........................................................................................11

4. Hardware User Guide..............................................................................................12

4.1. Connectors.................................................................................................................................12

4.1.1.

4.1.2.

4.1.3.

4.1.4.

Xplained Pro Extension Headers.................................................................................12

VDDIO Header.............................................................................................................14

Current Measurement Header.....................................................................................14

Cortex Debug Connector.............................................................................................14

4.2. Peripherals................................................................................................................................. 15

4.2.1.

4.2.2.

4.2.3.

4.2.4.

4.2.5.

4.2.6.

Crystals........................................................................................................................15

Mechanical Buttons..................................................................................................... 15

LED..............................................................................................................................16

Debug I²C and UART.................................................................................................. 16

Battery header............................................................................................................. 16

Temperature Sensor.................................................................................................... 17

4.3. Embedded Debugger Implementation........................................................................................17

4.3.1.

4.3.2.

4.3.3.

4.3.4.

Serial Wire Debug........................................................................................................17

Virtual COM Port..........................................................................................................17

Atmel Data Gateway Interface.....................................................................................18

SAM B11 Xplained Pro XAM Configuration................................................................. 18

5. Document Revision History..................................................................................... 20

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1.

Introduction

1.1.

Features

•

ATSAMB11G18A microcontroller

Bluetooth Host and Device mode

One mechanical reset button

One mechanical programmable button

One yellow user LED

Battery header (1x2 100mil header)

32.768kHz crystal

Two Xplained Pro extension headers

Embedded Debugger

–

Auto-ID for board identification in Atmel Studio

One yellow status LED

One green board power LED

Symbolic debug of complex data types icluding scope information

Programming and debugging, including power measurements

Data Gateway Interface: SPI, I²C, four GPIOs

Virtual COM port (CDC)

•

Embedded current measurement circuitry, with Atmel Data Visualizer support for data visualization

USB powered

Supported with application examples in Atmel Software Framework

1.2.

Kit Overview

The Atmel SAM B11 Xplained Pro evaluation kit is a hardware platform to evaluate the Atmel

ATSAMB11G18A.

The kit offers a set of features that enables the ATSAMB11G18A user to get started with the SAM B

peripherals right away and to get an understanding of how to integrate the device in their own design.

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Figure 1-1.ꢀSAM B11 Xplained Pro Evaluation Kit Overview

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2.

Getting Started

2.1.

Xplained Pro Quick Start

Steps to start exploring the Atmel Xplained Pro platform:

1. Download Atmel Studio.

2. Launch Atmel Studio.

3. Connect a USB cable (Standard-A to Micro-B or Micro-AB) between the PC and the DEBUG USB

port on the kit.

When the Xplained Pro MCU kit is connected to your computer for the first time, the operating system will

perform a driver software installation. The driver file supports both 32- and 64-bit versions of Microsoft^®

Windows^®XP, Windows Vista^®, Windows 7, and Windows 8.

Once the Xplained Pro MCU board is powered the green power LED will be lit and Atmel Studio will auto

detect which Xplained Pro MCU- and extension board(s) are connected. Atmel Studio will present

relevant information like datasheets and kit documentation. The kit landing page in Atmel Studio also has

the option to launch Atmel Software Framework (ASF) example applications for the kit. The SAM B11

device is programmed and debugged by the on-board Embedded Debugger and therefore no external

programmer or debugger tool is needed.

2.2.

Design Documentation and Relevant Links

The following list contains links to the most relevant documents and software for the SAM B11 Xplained

Pro.

•

Xplained Pro products - Atmel Xplained Pro is a series of small-sized and easy-to-use evaluation

kits for Atmel microcontrollers and other Atmel products. It consists of a series of low-cost MCU

boards for evaluation and demonstration of features and capabilities of different MCU families.

•

Atmel Studio - Free Atmel IDE for development of C/C++ and assembler code for Atmel

microcontrollers.

•

Atmel sample store - Atmel sample store where you can order samples of devices.

EDBG User Guide - User guide containing more information about the on-board Embedded

Debugger.

•

IAR Embedded Workbench^®for ARM^®- This is a commercial C/C++ compiler that is available for

ARM^®. There is a 30 day evaluation version as well as a code size limited kick-start version

available from their website. The code size limit is 16KB for devices with M0, M0+, and M1 cores

and 32KB for devices with other cores.

•

Atmel Data Visualizer - Atmel Data Visualizer is a program used for processing and visualizing

data. Data Visualizer can receive data from various sources such as the Embedded Debugger Data

Gateway Interface found on Xplained Pro boards and COM ports.

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3.

Xplained Pro

3.1.

Xplained Pro

Xplained Pro is an evaluation platform that provides the full Atmel microcontroller experience. The

platform consists of a series of Microcontroller (MCU) boards and extension boards, which are integrated

with Atmel Studio, have Atmel Software Framework (ASF) drivers and demo code, support data

streaming, and more. Xplained Pro MCU boards support a wide range of Xplained Pro extension boards,

which are connected through a set of standardized headers and connectors. Each extension board has

an identification (ID) chip to uniquely identify which boards are connected to an Xplained Pro MCU board.

This information is used to present relevant user guides, application notes, datasheets, and example

code through Atmel Studio.

3.2.

Embedded Debugger

The SAM B11 Xplained Pro contains the Atmel Embedded Debugger (EDBG) for on-board debugging.

The EDBG is a composite USB device of three interfaces; a debugger, Virtual COM Port, and a Data

Gateway Interface (DGI).

Together with Atmel Studio, the EDBG debugger interface can program and debug the ATSAMB11G18A.

On SAM B11 Xplained Pro, the SWD interface is connected between the EDBG and the

ATSAMB11G18A.

The Virtual COM Port is connected to a UART on the ATSAMB11G18A and provides an easy way to

communicate with the target application through terminal software. It offers variable baud rate, parity, and

stop bit settings. Note that the settings on the ATSAMB11G18A must match the settings given in the

terminal software.

Info:ꢀ The virtual COM port in the EDBG requires the terminal software to set the data terminal

ready (DTR) signal to enable the UART pins connected to the ATSAMB11G18A. If the DTR

signal is not enabled the UART pins on the EDBG is kept in high-z (tristate) rendering the COM

port unusable. The DTR signal is set automatically by some terminal software, but it may have

to be manually enabled in your terminal.

The DGI consists of several physical interfaces for communication with the host computer.

Communication over the interfaces is bidirectional. It can be used to send events and values from the

ATSAMB11G18A or as a generic printf-style data channel. Traffic over the interfaces can be timestamped

on the EDBG for more accurate tracing of events. Note that timestamping imposes an overhead that

reduces maximal throughput. Atmel Data Visualizer is used to send and receive data through DGI.

The EDBG controls two LEDs on SAM B11 Xplained Pro; a power LED and a status LED. The table

below shows how the LEDs are controlled in different operation modes.

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Table 3-1.ꢀEDBG LED Control

Operation mode

Power LED

Status LED

Normal operation

Power LED is lit when power is

applied to the board.

Activity indicator, LED flashes

when any communication

happens to the EDBG.

Bootloader mode (idle)

The power LED and the status LED blinks simultaneously.

Bootloader mode (firmware

upgrade)

The power LED and the status LED blinks in an alternating pattern.

For further documentation on the EDBG, see the EDBG User Guide.

3.3.

Xplained Pro Analog Module

3.3.1.

Overview

The Xplained Pro Analog Module (XAM) extends the embedded debugger with high dynamic range

current measurement. This enables power profiling of the target system.

Sync

GPIO

Control MCU

Calibration

circuitry

GPIO(s)

GPIO

I2C

SPI

Calibration ON/OFF

EDBG

Clock sync

SWD

voltage

reference

2.7V

AREF

Pre-amplifier

ADC0

ADC1

2x

20x

S&H

ADC

16x

GND

Active filter with

gain

GPIO

Xplained Pro Analog Module (XAM)

The XAM consists of:

•

Calibration circuitry

Voltage reference

Analog frontend

–

Shunt resistors with a range selection switch

Pre-amplifier

Two active filters with gain

•

Control MCU

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–

Analog to digital converter

Signal processing

Control/communication interface to the EDBG

The current measurement frontend is a high side shunt measurement with a pre-amplifier and a second

active filter stage with gain. The wide dynamic range is achieved by four measurement ranges which are

defined by two shunts and the two parallel second stage active filters with gain.

3.3.2.

EDBG Interface

The Xplained Pro Analog Module (XAM) is connected to the EDBG with the following interfaces:

•

I²C: This is used to control and configure the XAM

SPI: Current measurement data is streamed to the EDBG via this interface. This is a one-way data

transfer channel from the XAM to the EDBG

•

SWD: The MCU in the XAM is programmed via SWD from the EDBG

GPIO: At least one GPIO that is connected to the EDBG from the target MCU is also connected to

the current measurement unit to enable the user to sync current measurements with his application

•

Clock sync: Synchronization signal to synchronize ADC measurements with EDBG

Reference clock: Reference clock for the XAM

3.3.3.

3.3.4.

Sample Rate

The raw sampling rate of the Xplained Pro analog module (XAM) is up to 250kHz and with the default

averaging configuration (average of 16 samples) the actual output of the XAM is 16.67kSPS (note that

the XAM output sample rate is not an integer fraction of the raw sampling).

Measurement Ranges and Accuracy

The Xplained Pro analog module has four measurement ranges. These are defined by two shunt resistors

and two gain stages.

Measurement

range

Hardware

Resolution Accuracy Comments

Range 1

Low current shunt and

high gain stage

20nA

1 LSB ±1% Below 1μA the error will

increase. Typical error for

300nA is 1 LSB ± 10%

Range 2

Range 3

Range 4

Low current shunt and

low gain stage

150nA

10μA

1 LSB ±1%

High current shunt and

high gain stage

High current shunt and

low gain stage

100μA

1 LSB ±1% Above 100mA the error will

increase to 1 LSB ±5% at

400mA. Maximum current is

400mA

The ranges are switched automatically by the XAM to achieve best measurement results and the

currently active range is visualized in the Atmel Data Visualizer frontend tool. The maximum voltage drop

over the shunt resistor is 100mV and the XAM will switch the range automatically before this limit is

reached.

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3.4.

Hardware Identification System

All Xplained Pro compatible extension boards have an Atmel ATSHA204 CryptoAuthentication^™chip

mounted. This chip contains information that identifies the extension with its name and some extra data.

When an Xplained Pro extension is connected to an Xplained Pro MCU board the information is read and

sent to Atmel Studio. The Atmel Kits extension, installed with Atmel Studio, will give relevant information,

code examples, and links to relevant documents. The table below shows the data fields stored in the ID

chip with example content.

Table 3-2.ꢀXplained Pro ID Chip Content

Data field

Data type

ASCII string

uint16_t

Example content

Manufacturer

Atmel'\0'

Product Name

Segment LCD1 Xplained Pro'\0'

Product Revision

Product Serial Number

Minimum Voltage [mV]

Maximum Voltage [mV]

Maximum Current [mA]

02'\0'

1774020200000010’\0’

3000

3600

30

uint16_t

3.5.

Power Sources

The SAM B11 Xplained Pro kit can be powered by several power sources as listed in the table below.

Table 3-3.ꢀPower Sources for SAM B11 Xplained Pro

Power input

Voltage requirements

Current requirements Connector marking

External power

5V ±2% (±100mV) for

USB host operation.

Recommended

minimum is 1A to be

PWR

4.3V to 5.5V if USB host able to provide enough

operation is not

required.

current for connected

USB devices and the

board itself.

Recommended

maximum is 2A due to

the input protection

maximum current

specification.

Embedded debugger

USB

4.4V to 5.25V (according 500mA (according to

to USB spec.) USB spec.)

DEBUG USB

The kit will automatically detect which power sources are available and choose which one to use

according to the following priority:

1. External power.

2. Embedded Debugger USB.

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Note:ꢀ The selection for the supply of the Target MCU has a separate connector. The above priority

selects which supply is used to power the EDBG and the VCC_P3V3_CON.

Info:ꢀ External power is required when 500mA from a USB connector is not enough to power

the board with possible extension boards. A connected USB device in a USB host application

might easily exceed this limit.

3.6.

Xplained Pro Headers and Connectors

3.6.1.

Xplained Pro Standard Extension Header

All Xplained Pro kits have one or more dual row, 20-pin, 100mil extension header. Xplained Pro MCU

boards have male headers, while Xplained Pro extensions have their female counterparts. Note that all

pins are not always connected. All connected pins follow the defined pin-out description in the table

below.

The extension headers can be used to connect a variety of Xplained Pro extensions to Xplained Pro MCU

boards or to access the pins of the target MCU on Xplained Pro MCU boards directly.

Table 3-4.ꢀXplained Pro Standard Extension Header

Pin number

Name

ID

Description

1

2

3

Communication line to the ID chip on an extension board

Ground

GND

ADC(+)

Analog to digital converter, alternatively positive part of differential

ADC

4

ADC(-)

Analog to digital converter, alternatively negative part of differential

ADC

5

6

7

GPIO1

GPIO2

PWM(+)

General purpose I/O

Pulse width modulation, alternatively positive part of differential

PWM

8

PWM(-)

Pulse width modulation, alternatively negative part of differential

PWM

9

IRQ/GPIO

Interrupt request line and/or general purpose I/O

Slave select for SPI and/or general purpose I/O

10

SPI_SS_B/

GPIO

11

12

13

14

15

I²C_SDA

I²C_SCL

Data line for I²C interface. Always implemented, bus type.

Clock line for I²C interface. Always implemented, bus type.

Receiver line of target device UART

UART_RX

UART_TX

SPI_SS_A

Transmitter line of target device UART

Slave select for SPI. Should preferably be unique.

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Pin number

Name

Description

16

SPI_MOSI

Master out slave in line of serial peripheral interface. Always

implemented, bus type.

17

SPI_MISO

Master in slave out line of serial peripheral interface. Always

implemented, bus type.

18

19

20

SPI_SCK

GND

Clock for serial peripheral interface. Always implemented, bus type.

Ground

VCC

Power for extension board

3.6.2.

Xplained Pro Power Header

The power header can be used to connect external power to the SAM B11 Xplained Pro kit. The kit will

automatically detect and switch to any external power if supplied. The power header can also be used as

supply for external peripherals or extension boards. Care must be taken not to exceed the total current

limitation of the on-board regulator when using the 3.3V pin.

Table 3-5.ꢀXplained Pro Power Header

Pin number

Pin name

VEXT_P5V0

GND

Description

1

2

3

4

External 5V input

Ground

VCC_P5V0

VCC_P3V3

Unregulated 5V (output, derived from one of the input sources)

Regulated 3.3V (output, used as main power supply for the kit)

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4.

Hardware User Guide

4.1.

Connectors

The following sections describes the implementation of the relevant connectors and headers on SAM B11

Xplained Pro and their connection to the ATSAMB11G18A. The tables of connections in the sections also

describes which signals are shared between the headers and on-board functionality.

4.1.1.

Xplained Pro Extension Headers

The SAM B11 Xplained Pro headers EXT1 and EXT3 offers access to the I/O of the microcontroller in

order to expand the board e.g., by connecting extensions to the board. These headers are based on the

standard extension header specified in Table 3-4ꢀXplained Pro Standard Extension Header on page 10 .

The headers have a pitch of 2.54mm

Table 4-1.ꢀExtension Header EXT1

EXT1 pin

SAM B11 Function

Shared functionality

1 [ID]

-

Communication line to the ID

chip on an extension board

2 [GND]

-

Ground

3 [ADC(+)]

GPIO_M ADC

S1

4 [ADC(-)]

GPIO_M ADC

S2

5 [GPIO1]

6 [GPIO2]

GPIO4

GPIO

EDBG SPI

AO_GPIO GPIO/IRQ

_2

7 [PWM(+)]

8 [PWM(-)]

9 [IRQ/GPIO]

-

AO_GPIO IRQ/GPIO

_0

10 [SPI_SS_B/GPIO] GPIO_5

GPIO

Temperature Sensor on page

17

11 [TWI_SDA]

12 [TWI_SCL]

13 [USART_RX]

14 [USART_TX]

LP_GPIO I²C SDA

_8

EDBG I²C, Temperature Sensor

LP_GPIO I²C SCL

_9

EDBG I²C, Temperature Sensor

LP_GPIO UART1 RXD

_2

LP_GPIO UART TXD

_3

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EXT1 pin

SAM B11 Function

Shared functionality

15 [SPI_SS_A]

16 [SPI_MOSI]

17 [SPI_MISO]

18 [SPI_SCK]

LP_GPIO SPI_SSN

_12

LP_GPIO SPI MOSI

_11

EDBG SPI

LP_GPIO SPI MISO

_13

LP_GPIO SPI SCK

_10

19 [GND]

20 [VCC]

-

Ground

Power for extension board

Table 4-2.ꢀExtension Header EXT3

EXT3 pin

SAM B11 Function

Shared functionality

1 [ID]

-

Communication line to the ID

chip on an extension board

2 [GND]

-

Ground

3 [ADC(+)]

GPIO_M ADC

S3

4 [ADC(-)]

5 [GPIO1]

GPIO_M ADC

S4

LP_GPIO GPIO

_20

EDBG GPIO3

6 [GPIO2]

-

7 [PWM(+)]

8 [PWM(-)]

9 [IRQ/GPIO]

AO_GPIO IRQ/GPIO

_1

10 [SPI_SS_B/GPIO] -

11 [TWI_SDA]

-

LP_GPIO I²C SDA

_14

DEBUG I²C

12 [TWI_SCL]

13 [USART_RX]

14 [USART_TX]

LP_GPIO I²C SCL

_15

DEBUG I²C

LP_GPIO UART2 RX

_6

DEBUG UART

LP_GPIO UART2 TX

_7

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EXT3 pin

SAM B11 Function

Shared functionality

15 [SPI_SS_A]

16 [SPI_MOSI]

17 [SPI_MISO]

18 [SPI_SCK]

LP_GPIO SPI1 SSN

_16

LP_GPIO SPI1 MOSI

_19

LP_GPIO SPI1 MISO

_18

LP_GPIO SPI1 SCK

_17

19 [GND]

20 [VCC]

-

Ground

Power for extension board

4.1.2.

VDDIO Header

The SAM B11 Xplained Pro has a 2-pin header connecting the power supply from the VCC_MCU net to

VCC_IO net through a jumper. This header can be used to measure the current to the I/O block of the

SAM B11 device by removing the jumper and connect an ammeter. SAM B11 has the possibility to run the

I/O block at a lower voltage level than the MCU is running and thus support interfacing devices that

require lower operating voltages. The header can then be used to power the VCC_IO pin at a different

voltage level by removing the jumper and connecting a power supply with the desired voltage. Refer to

the datasheet of the device for valid operating voltages.

Table 4-3.ꢀVDDIO Header

VDDIO header pin

Function

1

2

VCC_MCU power supply

VCC_IO power input

4.1.3.

Current Measurement Header

An angled 1x2, 100mil pin-header marked with MCU current measurement is located at the upper edge of

the SAM B11 Xplained Pro. All power to the ATSAMB11G18A is routed through this header. To measure

the power consumption of the device remove the jumper and replace it with an ammeter.

Caution:ꢀ Removing the jumper from the pin-header while the kit is powered may cause the

ATSAMB11G18A to be powered through its I/O pins. This may cause permanent damage to the

device.

4.1.4.

Cortex Debug Connector

SAM B11 Xplained Pro has a 10-pin 50-mil Cortex^®Debug Connector that can be used to attach external

debuggers to the ATSAMB11G18A.

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Table 4-4.ꢀCortex Debug Connector

Cortex Debug

Connector pin

Pin / Net

Function

Shared functionality

1

VCC_TARGET_P3V3

ATSAMB11G18A

voltage

2

GPIO_1

SWD data signal

EDBG SWD

3

GND

Ground

4

GPIO_2

SWD clock signal

5

GND

Ground

6

-

7

-

8

-

9

GND

Ground

10

RESETN

Target reset signal

The Target reset is isolated from the Cortex Debug Connector by R300 (0 Ohm link) which is not mounted

by default in the PCBA

4.2.

Peripherals

4.2.1.

Crystals

The SAM B11 Xplained Pro kit contains one mounted 32.768kHz crystal that can be used as clock

sources for the SAM B11. The crystal has cut-straps next to them that can be used to measure the

oscillator safety factor. This is done by cutting the strap and adding a resistor across the strap.

Information about oscillator allowance and safety factor can be found in application note AVR41001,

information about clock calibration and compensation can be found in application note AT03155.

The footprint for the external crystal is based on the Fox FQ5032B series

Table 4-5.ꢀExternal 32.768kHz Crystal

SAM B11 pin

RTC_CLKP

RTC_CLKN

Function

XIN32

Shared functionality

-

XOUT32

4.2.2.

Mechanical Buttons

SAM B11 Xplained Pro contains two mechanical buttons. One button is the RESET button connected to

the SAM B11 reset line and the other is a generic user configurable button. When a button is pressed it

will drive the I/O line to GND.

Note:ꢀ There is no pull-up resistor connected to the generic user button. Remember to enable the

internal pull-up in the SAM B11 to use the button.

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Table 4-6.ꢀMechanical Buttons

SAM B11 pin

RESET

Silkscreen text

Shared functionality

RESET

SW0

-

GPIO_23

EDBG GPIO

4.2.3.

LED

There is one yellow LED available on the SAM B11 Xplained Pro board that can be turned on and off. The

LED can be activated by driving the connected I/O line to GND.

Table 4-7.ꢀLED Connection

SAM B11 pin

Function

Shared functionality

GPIO_22

Yellow LED0

EDBG GPIO

4.2.4.

Debug I²C and UART

Debug I²C and UART are used for debugging the BLE stack in the SAM B11 boards. Both these headers

are not mounted on the production variant.

Pinout for the Debug I²C:

Table 4-8.ꢀDebug I²C Pinout Specification

SAM B11 pin

I²C SCL

GND

Function

Shared functionality

Clock line for I²C

Ground

EXT3

I²C SDA

NC

Data line for I²C

EXT3

Pinout for Debug UART:

Table 4-9.ꢀDebug UART Pinout Specification

SAM B11 pin

UART TXD

UART RXD

GND

Function

Shared functionality

UART TX pin

UART RX pin

EXT3

4.2.5.

Battery header

The SAM B11 Xplained Pro has a BATTERY HEADER for connecting the battery for use with the SAM

B11 module. The battery header has a VCC and GND pin and disconnects the LDO for the MCU. It is

polarity protected. The batter power supply can be given to the device by placing a jumper over pin 1-2 on

the 3-pin VBAT SELECT header.

By default the jumper is placed over pin 2-3 to select the board power supply. This configuration is

selected to avoid draining the battery and can be used during development.

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Table 4-10.ꢀVBAT SELECT Header

VBAT SELECT pin

Function

1

2

3

Power from battery

VCC pin of SAM B11 board, powers both MCU and Extensions

Power from board supply

4.2.6.

Temperature Sensor

The SAM B11 Xplained Pro has an on board temperature sensor AT30TSE758A, powered by the

VCC_TARGET_P3V3 of the board. The temperature sensor is I²C controlled and is available on the

address 0x48 (7bit MSB address)

AT30TSE758A also has a serial EEPROM accessible through I²C

SAMB11 pin

LP_GPIO_8

LP_GPIO_9

LP_GPIO_5

Function

Shared functionality

EXT1, EDBG I²C

EXT1

SDA (Data line)

SCL (Clock line)

ALERT

4.3.

Embedded Debugger Implementation

SAM B11 Xplained Pro contain an Embedded Debugger (EDBG) that can be used to program and debug

the ATSAMB11G18A using Serial Wire Debug (SWD). The Embedded Debugger also include a Virtual

Com port interface over UART, an Atmel Data Gateway Interface over SPI, and I²C and it includes four of

the SAM B11 GPIOs. The kit also includes a XAM extension processor to the Embedded Debugger for

on-board current measurement. Atmel Studio can be used as a front end for the Embedded Debugger.

4.3.1.

Serial Wire Debug

The Serial Wire Debug (SWD) use two pins to communicate with the target. For further information on

how to use the programming and debugging capabilities of the EDBG, see Embedded Debugger on page

6.

Table 4-11.ꢀSWD Connections

SAM B11 pin

Function

Shared functionality

LP_GPIO_0

SWD clock

Table 4-4ꢀCortex Debug Connector on

page 15

LP_GPIO_1

SWD data

Table 4-4ꢀCortex Debug Connector on

page 15

4.3.2.

Virtual COM Port

The Embedded Debugger acts as a Virtual Com Port gateway by using one of the ATSAMB11G18A

UARTs. For further information on how to use the Virtual COM port, see Embedded Debugger on page 6.

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Table 4-12.ꢀVirtual COM Port Connections

SAM B11 pin

LP_GPIO_2

LP_GPIO_3

Function

Shared functionality

UART TXD(SAM B11 TX line)

UART RXD (SAM B11 RX line)

EXT1

4.3.3.

Atmel Data Gateway Interface

The Embedded Debugger features an Atmel Data Gateway Interface (DGI) by using either a SPI or I²C.

The DGI can be used to send a variety of data from the ATSAMB11G18A to the host PC. For further

information on how to use the DGI interface, see Atmel Data Visualizer and the EDBG User Guide.

Table 4-13.ꢀDGI Interface Connections When Using SPI

SAM B11 pin

Function

Shared functionality

LP_GPIO_7

GPIO/SPI SS (Slave select) ((SAM B11

is Master))

-

LP_GPIO_13

LP_GPIO_11

SPI MISO (Master In, Slave Out)

EXT1

SERCOM5 PAD[2] SPI MOSI (Master

Out, Slave in)

LP_GPIO_10

SERCOM5 PAD[3] SPI SCK (Clock Out) EXT1

Table 4-14.ꢀDGI Interface Connections When Using I²C

SAM B11 pin

LP_GPIO_8

LP_GPIO_9

Function

Shared functionality

SDA (Data line)

SCL (Clock line)

EXT1

Four GPIO lines are connected to the Embedded Debugger. The EDBG can monitor these lines and time

stamp pin value changes. This makes it possible to accurately time stamp events in the SAM B11

application code. For further information on how to configure and use the GPIO monitoring features, see

Atmel Data Visualizer and the EDBG User Guide.

Table 4-15.ꢀGPIO Lines Connected to the EDBG

SAM B11 pin

LP_GPIO_22

LP_GPIO_23

LP_GPIO_18

LP_GPIO_20

Function

GPIO0

GPIO1

GPIO2

GPIO3

Shared functionality

USER LED

USER BUTTON

EXT3

4.3.4.

SAM B11 Xplained Pro XAM Configuration

On the SAM B11 Xplained Pro the MCU and the MCU peripherals (e.g. extensions) are powered by its

own regulator as show in the following figure. All other parts of the board, mainly embedded debugger

and accompanying Xplained Pro Analog Module (XAM), are powered from a separate regulator. The

current to the MCU and peripherals can be measured by connecting them to the XAM output through

jumper settings.

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Figure 4-1.ꢀSAMB11 XAM Implementation Block Diagram

On the SAM B11 Xplained Pro the XAM can be used in four configurations:

1. No current measurement or external MCU current measurement: The XAM is bypassed and

thus the MCU and peripherals are supplied directly by the regulator. Set both jumpers in the

"BYPASS" position. In this configuration it is also possible to connect external measurement tools

on the Xplained Pro MCU power measurement header to measure MCU current directly instead of

using the XAM.

2. MCU current measurement: The XAM measures only the MCU current while the peripherals are

supplied directly by the regulator. For this configurations place the jumper for "I/O" (peripherals) into

the "BYPASS" position and the for "MCU" into the "MEASURE" position.

3. Peripherals measurement: The XAM measures only the peripherals current while the MCU is

directly supplied by the regulator. For this configuration place the jumper for "MCU" into the

"BYPASS" position and the "I/O" jumper into the "MEASURE" position.

4. MCU and peripherals measurement: In this configuration both MCU and peripherals are

measured by the XAM. Place both jumpers on "I/O" and "MCU" headers in the "MEASURE"

position.

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5.

Document Revision History

Doc. rev.

Date

Comment

42664A

02/2016

Initial document release.

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型号：	ATSAMB11-XPRO
厂家：	MICROCHIP
描述：	KIT STARTER XPLAINED PRO ATSAMB1
文件：	总21页 (文件大小：1543K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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