ALPW-BLETAG001 Data Sheet

ALPW-BLETAG001
DATASHEET
ALPW-BLETAG001 Datasheet 1.0
Bluetooth Low Energy Sensor Platform
FEATURES
APPLICATIONS
Ready-to-use Bluetooth® low energy
sensor platform
Weather Station
Small form factor : 28mm
Proximity Detection
Supplied with one CR2032
Light Control
Ultra Low Power consumption
Wireless Sensors
EM9301 2.4Ghz Bluetooth® low energy
Consumer Electronics
controller
Monitoring and Control
Provided with a qualified Bluetooth®
Remote control
Low Energy protocol stack
Provided with a complete SDK
128kByte Ultra Low Power Cortex M3
processor
DESCRIPTION
The ALPW-BLETAG001 is an universal singlemode Bluetooth® low energy sensors platform.
It supports Bluetooth Low Energy Specification
from the Bluetooth SIG inc., and can be a
reference design useful for targeted products
like accessories.
The TAG communicates with standard terminals,
smartphone, tablet, PC... through a wireless
Bluetooth®
low
energy
radio
link.
Alpwise provides the necessary firmware to
enable the development of your applications,
including sensors drivers and the Bluetooth® low
energy protocol stack.
www.alpwise.com
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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Table of contents
1
Product Description.......................................................................................... 5
1.1
Functional Block Diagram ........................................................................... 6
2
Detailed Description ......................................................................................... 8
2.1
Module Pin Description ............................................................................... 8
2.2
Embedded Sensors ...................................................................................10
2.2.1
Overview........................................................................................................................ 10
2.2.2
Gyroscope ...................................................................................................................... 10
2.2.3
Barometric Pressure ...................................................................................................... 11
2.2.4
Humidity and Temperature ........................................................................................... 12
2.2.5
Light proximity ............................................................................................................... 13
2.2.6
Accelerometer and magnetometer ............................................................................... 13
2.3
User Interface ..........................................................................................14
2.3.1
LEDs ............................................................................................................................... 14
2.3.2
Buzzer ............................................................................................................................ 14
2.3.3
Switches ......................................................................................................................... 15
2.4
2.5
Bluetooth Low Energy Controller ................................................................15
Power Supply ...........................................................................................15
2.5.1
3
2.6
Microcontroller .........................................................................................16
Device operating requirements .........................................................................17
3.1
Absolute Maximum Ratings ........................................................................17
3.2
Recommended operating conditions ............................................................17
3.3
Power Consumption ..................................................................................17
3.4
Electrical Characteristics............................................................................18
3.4.1
4
5
6
7
8
9
Battery Characteristics .................................................................................................. 15
RF Electrical Characteristics ........................................................................................... 18
Software .......................................................................................................19
4.1
Embedded Firmware .................................................................................19
4.2
Smartphone Application ............................................................................20
4.3
Quick Start Demonstration ........................................................................21
Product Dimensions ........................................................................................22
5.1
Mechanical Dimensions .............................................................................22
Cautions ........................................................................................................23
6.1
Design notes............................................................................................23
6.2
Installation notes .....................................................................................23
6.3
Usage conditions notes .............................................................................23
6.4
Storage notes ..........................................................................................23
6.5
Other Cautions .........................................................................................23
Environmental Consideration ...........................................................................24
Regulatory Information ...................................................................................24
Resources......................................................................................................25
9.1
Related Documents ..................................................................................25
9.2
Software Resource ...................................................................................25
9.3
Hardware Resource ..................................................................................25
9.4
Support...................................................................................................25
9.5
Sales ......................................................................................................25
9.6
Contact information ..................................................................................26
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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Table of figures
Figure1.: Clouding applications overview .................................................................. 5
Figure2.: ALPW-BLETAG001 block diagram ............................................................... 6
Figure3.: ALPW-BLETAG001 implantation ................................................................. 7
Figure4.: ALPW-BLETAG001 bottom-side connector ................................................... 8
Figure5.: Tag bottom-side connector pinout .............................................................. 8
Figure6.: Tag top-side pads implantation .................................................................. 9
Figure7.: Tag top-side pads pinout .......................................................................... 9
Figure8.: Sensors overview ....................................................................................10
Figure9.: Gyroscope to MCU connection ..................................................................10
Figure10.: Gyroscope characteristics .......................................................................11
Figure11.: Barometric pressure sensor to MCU connection .........................................11
Figure12.: Barometric pressure sensor characteristics ...............................................11
Figure13.: Altitude calculation formula ....................................................................12
Figure14.: Humidity and temperature sensor to MCU connection ................................12
Figure15.: Humidity and temperature sensor characteristics ......................................12
Figure16.: Ambient light sensor to MCU connection ..................................................13
Figure17.: Ambient light sensor characteristics ........................................................13
Figure18.: Accelerometer/magnetometer sensor to MCU connection ...........................13
Figure19.: Accelerometer/magnetometer sensor characteristics .................................14
Figure20.: LEDs to MCU connection ........................................................................14
Figure21.: Buzzer to MCU connection ......................................................................14
Figure22.: Switches to MCU connection ...................................................................15
Figure23.: Bluetooth Low Energy controller to MCU connection ...................................15
Figure24.: Battery characteristics ...........................................................................15
Figure25.: Microcontroller characteristics .................................................................16
Figure26.: Absolute maximum ratings .....................................................................17
Figure27.: Recommended operating conditions ........................................................17
Figure28.: Power consumptions ..............................................................................17
Figure29.: RF Characteristics .................................................................................18
Figure30.: Software architecture ............................................................................19
Figure31.: Tag mechanical dimensions ....................................................................22
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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1
Product Description
The ALPW-BLETAG001 TAG combines UltraLow Power hardware components as:
the EM9301 2.4 Ghz Bluetooth® low energy controller
the Ultralow power ARM® Cortex™-M3 core with MPU, the STM32L152 MCU
supporting a complete Bluetooth® low energy protocol stack, sensors firmware and handling user
application, consumption optimized by low power modes.
The ALPW-BLETAG001 accelerates development of Bluetooth low energy sensor applications.
The ALPW-BLETAG001 TAG makes the link between the sensor network to Smarphone, tablets
Applications and the Cloud Computing, making possible for users to access their information from
anywhere at any time.
This TAG includes all kinds of sensors enabling the development of various applications such as a
weather station, dimmer, fall detection, motion capture, or any other functions a designer can
imagine by using onboard sensors: temperature, humidity, air pressure, 3D accelerometer, 3D
gyroscope, 3D magnetometer, ambient lighting ...
Figure1.: Clouding applications overview
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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1.1
Functional Block Diagram
Below is a functional block diagram:
Figure2.: ALPW-BLETAG001 block diagram
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Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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DATASHEET
Figure3.: ALPW-BLETAG001 implantation
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2
2.1
Detailed Description
Module Pin Description
Bottom-side 10-pins connector:
Figure4.: ALPW-BLETAG001 bottom-side connector
The ALPW-BLETAG001 embeds a 10-pins connector to allow programming and debugging as well as
connection to user application.
1
2
3
4
5
6
7
8
9
10
Signal Name
SWCLK
VDD
SWDIO
PA12/USBDP
NRST
PA11/USBDM
PB13
PB9/I2C SDA
PB8/I2C SCL
GND
Type
Digital
Supply
Digital
Digital
Digital
Digital
Digital
Digital
Digital
Supply
Description
Serial Wire Debug Clock
Main power supply
Serial Wire Debug Data
PA12 or USB data
MCU Reset
PA11 or USB data
PB13
PB9 or I2C Serial Data
PB8 or I2C Serial Clock
GND
Figure5.: Tag bottom-side connector pinout
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Top Side pads :
Figure6.: Tag top-side pads implantation
To allow an easy connection to another application, the ALPW-BLETAG001 has 10 pads on its top
side, that export the following signals:
Signal Name
1
2
3
4
5
VDD
BOOT0
PA9/USART1 TX
PA10/USART1 RX
GND
1
2
3
4
5
GND
PB12
PA2
PA1
VDD
Type
Description
LEFT Side pads
Supply
Main Power supply
Digital
MCU BOOT Selection
Digital
PA9 or USART1 Transmit data
Digital
PA10 or USART1 Received data
Supply
GND
RIGHT Side pads
Supply
GND
Digital
PB12 / ADC Input 18
Digital
PA2 / ADC Input 2
Digital
PA1 / ADC Input 1
Supply
Main power source
Figure7.: Tag top-side pads pinout
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2.2
Embedded Sensors
2.2.1 Overview
Sensor Type
U3
Gyroscope
U5
Barometric Pressure
Humidity and
Temperature
U7
U4
Light Proximity
U6
Accelerometer and
Magnetometer
Manufacturer
ST
Microelectronics
Bosh Sensortec
Part name
Description
MEMS motion sensor, three-axis
L3G4200D
gyroscope
BMP180
Digital, barometric pressure sensor
Humidity and Temperature sensor
Sensirion
SHT21
IC
Light to digital converter with
Taos
TSL27713FN
proximity sensing
High performance e-compass, 3D
ST
LSM303DLHC accelerometer
and
3D
Microelectronics
magnetometer module
Figure8.: Sensors overview
2.2.2 Gyroscope
MCU Pin
PB8 / I2C1_SCL
PB9 / I2C1_SDA
PC10
PC11
Direction
→
←→
←
←
Sensor
SCL
SDA
INT2
INT1
Description
Figure9.: Gyroscope to MCU connection
The ST Microelectronics L3G4200D is a low-power three-axis angular rate sensor with digital output,
integrating a MEMS mechanical sensing element along with a CMOS IC.
Symbol
FS
AXES
NL
T
Sg
Description
Measurement range
Min
Number of sensing axes
Non linearity
Working temperature
range
Shock Survivability
Acceleration g for 0.1ms
Output data rate
ODR
Sensitivity
Zero Rate Level1
Typ.
Max
Unit
°/sec
±2000
(dps)
%FS
±250
±500
-
3
0.2
-40
-
+85
°C
-
10000
100
200
400
800
130
200
70
±10
±15
±75
-
g
User Selectable
So
ZRT
Note
FS=250 dps
FS=500 dps
FS=2000 dps
FS=250 dps
FS=500 dps
FS=2000 dps
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Hz
mdps/
digit
Dps
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Idd
Supply current
Supply current in sleep
Iddslp
mode
Supply
current
in
Iddpd
power-down mode
1
: Zero rate level when no velocity applied
6.1
mA
1.5
mA
5
µA
Figure10.: Gyroscope characteristics
2.2.3 Barometric Pressure
The BMP180 is a high performance, ultra low power barometric pressure sensor from Bosh
Sensortec, based on a piezo-resistive stain gauge technology.
MCU Pin
PB8 / I2C1_SCL
PB9 / I2C1_SDA
Direction
→
←→
Sensor
Description
SCL
SDA
Figure11.: Barometric pressure sensor to MCU connection
Symbol
FS
ACC
RES
Tconv
Idd
NOISE
Description
Note
Measurement range
Absolute
accuracy
0°C to +65°C
pressure
-20°C to 0°C
Resolution of output
data
Conversion Time
Ultra low power mode
Standard mode
High Resolution mode
Ultra high resolution mode
Advanced resolution mode
Current Consumption in
Ultra low power mode
various
operational
Standard Mode
modes
High resolution mode
Ultra high resolution mode
Advanced resolution mode
Peak current during
conversion
Standby current @25°C
RMS Noise
Ultra low power mode
Standard mode
High Resolution mode
Ultra high resolution mode
Advanced resolution mode
Min
300
-4.0
-6.0
Typ.
-1.0
-1.0
Max
1100
+2.0
+4.5
0.01
Unit
hPa
hPa
hPa
-
3
5
9
17
51
3
5
7
12
32
4.5
7.5
13.5
25.5
76.5
-
-
650
1000
-
0.1
0.06
0.05
0.04
0.03
0.02
-
ms
µA
hPa
Figure12.: Barometric pressure sensor characteristics
From the pressure measurement, the altitude can be calculated as follows:
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Altitude Calculation
10000
Altitude [m]
8000
6000
4000
2000
0
-2000
300
400
500
600
700
800
900 1000 1100
Barometric Pressure [hPa]
Figure13.: Altitude calculation formula
2.2.4 Humidity and Temperature
The Sensirion SHT21 is a temperature and humidity sensor with I2C interface.
MCU Pin
PB8 / I2C1_SCL
PB9 / I2C1_SDA
Direction
→
←→
Sensor
Description
SCL
SDA
Figure14.: Humidity and temperature sensor to MCU connection
Symbol
FS
ACC
NL
Description
Measurement range
Accuracy
Non Linearity
Long Term Drift
DRIFT
Idd
Current Consumption
Note
Humidity
Temperature
Humidity
Temperature
Humidity
Min
0
-40
-
Typ.
±2.0
±0.3
Max
100
+125
0.1
Humidity
0.5
Temperature
Sleep Mode
Measuring
0.04
0.4
330
200
0.15
300
Unit
%RH
°C
%RH
°C
%RH
%RH/
yr
°C/yr
µA
µA
Figure15.: Humidity and temperature sensor characteristics
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2.2.5 Light proximity
The TSL2771 is light-to-digital converter with proximity sensing. The ambient-light sensing element
converts the data of two photodiodes and integrates it to approximate the human eye response.
The proximity sensing element uses an external infrared LED as light source and measure the amount
of reflected light.
MCU Pin
PB10 / I2C1_SCL
PB11 / I2C1_SDA
PC1
Direction
→
←→
←
Sensor
SCL
SDA
INT
Description
Active low
Figure16.: Ambient light sensor to MCU connection
Symbol
Description
Note
Min
Proximity
detection
D
operating distance1
Current Consumption
Active – LDR pulses off
Idd
Wait mode
Sleep Mode (no I2C activity)
1
: Operating distance highly depends on the reflecting surface used.
Typ.
Max
45
175
65
2.5
Unit
cm
250
4
µA
µA
µA
Figure17.: Ambient light sensor characteristics
2.2.6 Accelerometer and magnetometer
The ST Microelectronics LSM303DLHC is a high performance 3D accelerometer and 3D
magnetometer module.
MCU Pin
PB10 / I2C1_SCL
PB11 / I2C1_SDA
PC2
PC3
PC4
Direction
→
←→
←
←
←
Sensor
Description
SCL
SDA
DRDY
INT1
INT2
Figure18.: Accelerometer/magnetometer sensor to MCU connection
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Symbol
FSacc
Description
Note
Linear
acceleration
measurement range
Min
User Selectable
-
User Selectable
-
±2g range
±4g range
±8g range
±10g range
Depends on the magnetic
measurement range
-
Magnetic measurement
range
FSmag
Sacc
Gmagnetic
Zgacc
Rmag
T
Linear
acceleration
sensitivity
Magnetic Gain Setting
205
Zero-g offset level
Magnetic resolution
Typ.
±2
±4
±8
±10
±1.3
±1.9
±2.5
±4.0
±4.7
±5.6
±8.1
1
2
4
12
-
Max
Unit
-
g
-
gauss
-
mg/
LSB
1100
±60
2
Operating temperature
range
-
-40
+85
LSB/
Gauss
Mg
mgau
ss
°C
Figure19.: Accelerometer/magnetometer sensor characteristics
2.3
User Interface
2.3.1 LEDs
MCU Pin
PC7
PC8
PC9
Direction
→
→
→
LED
Green LED
Red LED
Yellow LED
Description
Active low
Active low
Active low
Figure20.: LEDs to MCU connection
2.3.2 Buzzer
MCU Pin
PB6
PB7
Direction
→
→
Buzzer
Buzzer pin 1
Buzzer pin 2
Description
PWM output
PWM output
Figure21.: Buzzer to MCU connection
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2.3.3 Switches
MCU Pin
PA0
PC12
Direction
←
←
Switch
SW1
SW2
Description
Active high
Active low or high
Figure22.: Switches to MCU connection
2.4
Bluetooth Low Energy Controller
MCU Pin
PA4/SPI1_NSS
PA5/SPI1_SCK
PA6/SPI1_MISO
PA7/SPI1_MOSI
PA8
PA3
Direction
→
→
←
→
→
←
BLE Controller
Description
SPI CS
Active low
SPI SCK
SPI MISO
SPI MOSI
RST
Active high
IRQ
Active low
Figure23.: Bluetooth Low Energy controller to MCU connection
2.5
Power Supply
The ALPW-BLETAG001 is designed to operate from a single 3V CR2032 coin-cell battery.
2.5.1 Battery Characteristics
Symbol
Vbatt
Cbatt
Idischarge
Ipeak
Description
Battery Nominal Voltage
Battery typical capacity
Discharge current
Peak Discharge current
Note
Min
-
Typ.
3.0
225
0.2
-
Max
3
15
Unit
V
mAh
mA
mA
Figure24.: Battery characteristics
The TAG consumption depends on the application itself (autonomy, current peaks …) and power
management. Consequently, the type of battery results of current consumption and the necessary
capacity to run the application.
For a common application the CR2032 battery will be used, otherwise external power supply can be
possible.
Take care of the polarity of the battery: the minus side must be in contact with the
board, the plus side is in contact with the battery holder.
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ALPW-BLETAG001
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2.6
Microcontroller
The ALPW-BLETAG001 embeds a low-power Cortex M3 microcontroller from ST Microelectronics
Symbol
Sysclk
MFLASH
MRAM
MEEPROM
RESADC
Description
System Clock Frequency
Flash Memory
RAM Memory
EEPROM Memory
ADC Resolution
Note
Min
Typ.
0,032
128
16
4
12
Max
32
-
Unit
MHz
kBytes
kBytes
kBytes
Bits
Figure25.: Microcontroller characteristics
The microcontroller can be programmed through the Serial-Wire Debug (SWD) interface, accessible
on the bottom-side connector.
Alpwise provides a tag programming board, which adapts the tag connector to a standard 20-pins
SWD connector. Refer to chapter 9.3 for more information.
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3
3.1
Device operating requirements
Absolute Maximum Ratings
The absolute maximum ratings listed below have not been tested, and correspond to the main
components specifications. Stresses beyond those limits may cause permanent damage to the
module.
Symbol
Description
Note
Vdd-Vss
Main Supply Voltage
Vin
Input Voltage on any pad
|Vssx
– Voltage difference between all
Vss|
power or ground pins
VESD(HBM)
Electrostatic discharge (Human
Body Model)
VRF_IN
Input RMS voltage to RF pin
Tstorage
Storage temperature range
Min
-0.2
-0.2
Typ.
-
Max
3.6
4.0
Unit
V
V
-
50
-
mV
-
2000
-
V
-0.5
-50
-
2.1
+105
V
°C
Min
2.0
0
-10
-
Typ.
3
530
Max
3.5
3.6
+85
-
Unit
V
V
°C
mW
Figure26.: Absolute maximum ratings
3.2
Recommended operating conditions
Symbol
Vdd-Vss
Vin
Description
Supply Voltage
Input voltage on any pad
T°
Operational Temperature Range
Note
Other
Figure27.: Recommended operating conditions
3.3
Power Consumption
Average current consumption
Sleep mode
Average current in Advertising state (Tadv = 1,28s)
Average current in Connection state, TI = 500ms (without sending data)
Average current in Connection state, TI = 500ms (with sending data), multislot
transfer
Static current consumption
TX/RX pulse : connection state + data sending
TX/RX peak : connection state + data sending
8.6µA
91.4µA
915µA
970µA
12.6mA
14.6mA
Figure28.: Power consumptions
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3.4
Electrical Characteristics
3.4.1 RF Electrical Characteristics
Symbol
FRF
Bch
Zin
Sin
Description
Operational RF Frequency
Channel Spacing
Input Impedance
Sensitivity
PRF
Ouput RF Power
Pout-of-band
Out of band emissions
Note
Software
Programmable
30kHZ to 1Ghz
1 to 12.75GHz
2nd Harmonic
3rd Harmonic
Min
2402
-80
Typ.
-18
-
+3
dBm
-
-
-30
-30
-30
-30
dBm
dBm
dBm
dBm
1
50
-
Max Unit
2480 MHz
MHz
Ohms
dBm
Figure29.: RF Characteristics
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ALPW-BLETAG001
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4
4.1
Software
Embedded Firmware
Libraries and software modules are available to empower your product designs.
Alpwise provides API’s for:
User Interface capabilities
Sensor drivers
Bluetooth low energy core stack and profiles
Qualified Bluetooth® low energy protocol stack with GAP, SMP, ATT, L2CAP and GATT protocols.
Alpwise provides a continuously updated list of profiles :
Alpwise Data Exchange Profile
Health Thermometer Profile
Find Me Profile,
Proximity Profile
Time Profile
Phone Alert Status Profile
Heart Rate Profile,
Human Interface Device Profile
Alert Notification Profile
Figure30.: Software architecture
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Smartphone Application
Alpwise provides OEM Firmware to handle remote sensor and control mechanism from iOS or
Android Apps.
Profiles and Services are plugged above IOS/Andoid Native BLE Core Stack
Specific customer development can be done
The Alpwise BLE App is part of the Alpwise network of things approach, and complements all the
existing Alpwise's Bluetooth® 4.0 products to offer a complete end-to-end product development
solution.
It is compatible with all Bluetooth Smart accessories.
It supports Proximity profile, Find Me profile and Battery Profile, Health Thermometer, ALPW
Weather Station, ALPW Free Fall Detection, ALPW Light and ALPW Light Switch. A "Featured" section
offers the possibility to build a weather station and to control light with your device.
The Alpwise BLE App allows the development of Bluetooth Low Energy applications with Alpwise's
BLE solutions like tags (ALPW-BLETAG) or development kits (ALPW-BLEDVK).
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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Quick Start Demonstration
Download the Alpwise BLE application and install it on your peripheral.
1. First, insert the battery into the battery holder. Respect the polarity.
2. Push the On/Off switch to switch on the ALPW-BLETAG001. This switch completely switches
off the TAG (no power consumption).
3. When powered up, the green light starts blinking. If it doesn’t, try replacing the battery and
restart the device. It the orange LED lights up, replace the battery.
Green LED
Orange LED
Red LED
This led blinks when the tag is discoverable and connectable
This led is on when the tag is connected
This led can be on or off or blinking during a demonstration
This led blinks in case of error, or proximity alert
This led can be on or off or blinking during a demonstration
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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5.1
Product Dimensions
Mechanical Dimensions
The ALPW-BLETAG001 has a diameter of 28.0mm. The figure below shows the position of the LEDs,
buttons and holes. The module has a thickness of about 6.5mm (4.2mm for the battery holder,
1.1mm for the PCB, and 1.2mm for the components) (6.9mm including the height of the buttons).
The step model of the TAG is available upon request.
Figure31.: Tag mechanical dimensions
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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6.1
Cautions
Design notes
The user must deliver a low-noise power supply to the module, without AC ripple voltage. Noisy
supply voltages must come with a decoupling circuit (serial ferrite bead connected to a shunt
capacitor to ground).
The product should be mechanically stressed when installed.
6.2
Installation notes
Do not wash the product.
6.3
Usage conditions notes
This product has limited ESD protection. Take measures to protect the unit against
static electricity, especially in dry atmosphere.
Follow the operating conditions regarding the power supply applied to the product.
This product is intended for general purpose and standard use in general electronic equipment. For
applications in a particular environment, please contact the technical support.
Dispose the battery properly and keep out of reach of children. If swallowed, contact a physician
immediately.
6.4
Storage notes
In order to preserve the performance characteristics of the module, do not store the product in the
following conditions :
Storage in an environment where the temperature may be outside the 5°C to 35°C range
Storage in an environment where the humidity may be outside the 45% to 85% range
Storage of the product for more than 1 year after the date of delivery
6.5
Other Cautions
The datasheet document is copyrighted.
Do not use this product for other purposes than those listed
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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Environmental Consideration
Alpwise is committed to respecting the environment and the regulations of the countries where we
do business.
One important regulation is the European Union's Directive 2002/95/EC, Restriction on Use of
Hazardous Substances (RoHS), which has strict rules regarding products put on the European market
after July 1, 2006.
Alpwise will mark RoHS compliant products with this symbol on the package and/or barcode label:
8
Regulatory Information
CE / FCC / Canada / Japan certification pending.
Bluetooth SIG Statement pending.
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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9.1
Resources
Related Documents
Alpwise Bluetooth Low Energy Software Development Kit
Bluetooth SIG Specification
ST Microelectronics STM32L152 Datasheet
ST Microelectronics L3G4200D Datasheet
ST Microelectronics LSM303DLHC Datasheet
Bosh Sensortec BMP180 Datasheet
Sensiron SHT21 Datasheet
Taos TSL27713 Datasheet
9.2
Software Resource
SDK supporting Bluetooth Low Energy protocol stack exists. Pease contact our sales support to get
the right information and find the best solution for your application
9.3
Hardware Resource
The ALPW-BLETAG001 can be delivered along with a programming board, to adapt a standard 20pins debug connector to the tag connector.
For more information about our product line, please contact our sales support
9.4
Support
For any technical questions regarding usage of this tag, please consider the following email address:
[email protected]
9.5
Sales
For any commercial questions regarding access of this tag, please consider the following email
address:
[email protected]
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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Contact information
ALPWISE S.A.S
LE PULSAR
4 Avenue Doyen Louis Weil
38000 GRENOBLE
FRANCE
www.alpwise.com
Legal notices
Information furnished is believed to be accurate and reliable. However, ALPWISE assumes no
responsibility for the consequences of use of such information nor for any infringement of patents or
other rights of third parties which may result from its use. No license is granted by implication or
otherwise under any patent or patent rights of ALPWISE.
Specifications mentioned in this publication are subject to change without notice. This publication
supersedes and replaces all information previously supplied. ALPWISE products are not authorized
for use as critical components in life support devices or systems without express written approval of
ALPWISE.
The ALPWISE logo is a registered trademark of ALPWISE SAS.
The Bluetooth® word mark and logos are registered trademarks owned by Bluetooth SIG, Inc. and any use of
such marks by Alpwise is under license.
All other names are the property of their respective owners.
©2013 ALPWISE – All rights reserved
www.alpwise.com
ALPWISE S.A.S. – LE PULSAR, 4 Avenue Doyen Louis Weil, 38000 GRENOBLE, France
Tel: +33 4 76 22 02 24– Email: [email protected] – www.alpwise.com
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