Features• STEVAL-BCN002V1B evaluation kit with STEVAL-BCN002V1 sensor board and
STEVAL-BCN002V1D programming board.• STEVAL-BCN002V1 sensor board:
– BlueNRG-2: Bluetooth Low Energy single-mode system-on-chip– BALF-NRG-02D3: ultra-miniature balun and harmonic filter– LSM6DSO: iNEMO 6DoF inertial module, ultra-low power and high
accuracy– LIS2MDL: magnetic sensor, digital output, 50 gauss magnetic field dynamic
range, ultra-low power, high performance, 3-axis magnetometer– VL53L1X: long range Time-of-Flight sensor based on ST FlightSense
technology– MP34DT05TR-A: MEMS audio sensor omnidirectional digital microphone,
64 dB SNR, -26 dBFS sensitivity, top-port, 122.5 dBSPL AOP– LPS22HH: ultra-compact piezo-resistive absolute pressure sensor,
260-1260 hPa, digital output barometer, full-mold dust resistant, holed LGApackage (HLGA)
– HTS221: capacitive digital sensor for relative humidity and temperature– CR2032 battery powered (not included)
• STEVAL-BCN002V1D programming board:– program and debug firmware running on sensor board– supply power to the sensor board
• ST BLE Sensor app available on Android (Google Play) and iOS (iTunes)• Target Applications:
– Internet of Things, Smart Building, Home and City– Tracking System, Supply Chain/ Cold-Chain Management– Smart Agriculture (soil control, animal activity tracking, etc.)
DescriptionThe STEVAL-BCN002V1B Bluetooth LE enabled sensor node development kitfeatures the STEVAL-BCN002V1 multi-sensor board based on BlueNRG-2 SoCBluetooth Low Energy application processor. This sensor board has accelerometer,gyroscope, magnetometer, pressure, humidity, Time-of-Flight and microphonesensors, and is powered by a common CR2032 coin battery.
The sensor board communicates with a Bluetooth LE enabled smartphone runningthe ST BLE Sensor app, available on Google Play and iTunes stores.
The STEVAL-BCN002V1D adapter board is used to program and debug the sensorboard. The adapter board is powered via USB.
Product summary
Bluetooth LE enabledsensor nodedevelopment kit
STEVAL-BCN002V1B
Sensor board withBluetooth LE SoC anda range of sensors
STEVAL-BCN002V1
Adapter andprogramming board
STEVAL-BCN002V1D
BLE sensor applicationfor Android and iOS ST BLE Sensor
BlueTile – Bluetooth LE enabled sensor node development kit
STEVAL-BCN002V1B
Data brief
DB3697 - Rev 6 - March 2019For further information contact your local STMicroelectronics sales office.
www.st.com
1 Component layout
Figure 1. STEVAL-BCN002V1 sensor node front and rear components1a. BlueNRG-2 Bluetooth 5.0 network and application processor 1b. BALF-NRG-02D3 integrated balun and matching network2a. LPS22HH ambient pressure sensor 2b. LSM6DSO smart accelerometer and gyroscope 2c. LIS2MDL magnetometer 2d.VL53L1X proximity by time-of-flight 2e. HTS221 relative humidity and temperature 2f. MP34DT05-A top-port digital microphone3a. User button 3b. RGB LED4a. I2C SCL 4b. I2C SDA 4c. GND 4d. ADC 4e. TEST 4f. VDD 4g. GND 4h. RFTEST5a. II-network (not mounted) 5b. SMD antenna6a. Inductor to enable lowest power BLE active mode 6b. 32kHz crystal to enable lowest power BLE sleep mode7a. Battery holder 7b. CR2032 battery (not included)8. 10-pin connectorFCC ID: S9NSTEBCN2V1 IC ID: 8976C-STEBCN2V1
1a2a
4a
5a
6a
2b
2c2d
2e
2f
3a3b
4b4c
4d4e
4f
4g4h
1b
5b
6b
7a
7b
8
RESETNUART RX
UART TXSWD CLK
SWD IO
IO IO IO IO
GNDBOOTGND GND VDD
1
210
STEVAL-BCN002V1BComponent layout
DB3697 - Rev 6 page 2/17
Figure 2. STEVAL-BCN002V1D host board for programming and debuggingTop side components:1. ST-LINK V3 debugger2. 20 pin JTAG/SWD for ext. ST-LINK V2Bottom side components:1. VCOM for STM32L1512. 5 pin JTAG/SWD for Nucleo ST-LINK
2
21
1
STEVAL-BCN002V1D
NUCLEO ST-LINK
STEVAL-BCN002V1BComponent layout
DB3697 - Rev 6 page 3/17
2 Schematic diagrams
STEVAL-BCN002V1BSchematic diagrams
DB3697 - Rev 6 page 4/17
2.1 STEVAL-BCN002V1 sensor board schematics
Figure 3. STEVAL-BCN002V1 schematic (1 of 3)
SWDIOSWDCLK
GND
GND
GND
INT_
3XIN
T_C
OM
UAR
T_R
X
100n
GND
100k
VDD
25R
ESET
N
26SM
PSFI
LT1
27SM
PSFI
LT2
28VD
D1V
2
29D
IO13
DIO
1230
TEST
3132D
IO11
1 DIO102 DIO93 DIO84 DIO75 DIO66 VBAT37 DIO58 DIO4
VDD
L3
C7
GNDXT
AL
GND
GND
1µ
GND
EXPEXP
RX_PB1
RX_NB2 ANT A1
GND A2
U2
3.9n
VDD
C20
U1G1
2n
R1L2
C2
FT1
FT2M
T
C4
9D
IO3
DIO
210
DIO
111
DIO
012 13
ANAT
EST0
/DIO
1414
ANAT
EST1
ADC
115
ADC
216
C12
VDD
MLG
0603
P9N
1H
GR
M03
32C
1H7R
0CA0
1
100n
BALF-NRG-02D3
Balun
Bluetooth low-energy chip
Chip Antenna
BLUENRG-2
GND
C23
I2C_CLKI2C_SDA
10µH
100n
GN
D
7 pF
n.m
.
9.1
nH
22p
C24
GND
100k
n.m.
0
n.m.
GND
17FXTAL1
18FXTAL0VBAT2 19RF1 20RF0 21
22SXTAL1
23SXTAL0
24VBAT1
10n
GND
15p
GND
ANT016008LCS2442MA1
U5
XTAL32
VDD
GN
D
VDD
150n
GN
D
100n
NX2012SA-32.768K-STD-MUB-1
GND
GND
C6
L1
C28
CX2
016D
B320
00D
0FLJ
CC
BOO
T
PDM
_DAT
APD
M_C
LK
L_B
L_G
L_R
TEST
1
L6
C27
R7
C13
C17
ADC
NR
STUART_TXBOOT
GND GND GND
GND
C5
C1
100p
1µ
C21 22
p
C9
1µ
15p
C18
1µ
DB
3697 - Rev 6
page 5/17
STEVAL-B
CN
002V1BSchem
atic diagrams
Figure 4. STEVAL-BCN002V1 schematic (2 of 3)
100n
VL53L1CBV0FY
BLM15GG471SN1D
L4
VDD
GND
LSM6DSO
1
SCL
P2
VDD
P1
I2C_SDA
INT_COM
INT_3X
BOOT
V+V+
PDM_CLK
U10
P6
VDD
VDD
V+V+
P3CS DRDY
GN
D
GN
D
GN
DG
ND
GN
D
GN
D
C30
C11
C10
C16
µ
GND
GNDGND
GND
GND
GND
GND
VDDVDD
GND
VDD
VDD
VDD
10p
V+
VDD
P_1 AVDDVCSELP_2 AVSSVCSELGNDP_3
GND2P_4
XSHUTP_5
GND3P_6 GPIO1 P_7DNC P_8SDA P_9SCL P_10AVDD P_11GND4 P_12
100n
µ
CLK
4.7
V+
I2C_CLK
VDD
I2C
_CLK
VDD
Digital Microphone
Magnetometer
Accelerometer / Gyroscope
Pressure
Humidity / Temperature
Proximity
GND
LPS22HH
Decoupling / Filtering
GND
I2C_CLK
U6C19
VDD
I2C
_CLK
PDM_DATA
VDD
220n
I2C_SDA
HTS221
100n
GND
I2C
_SD
A
I2C
_SD
A
VDD
VDD
I2C_CLK
LIS2MDL
SDO
P5
B3
DOUT B4
GNDG1*4
LR B2VDDB1
CS
P12
SCL
P13
SDA
P14
U7
U9
P7INT/DRDY
SCLP1
CSP3
SDAP4 C1 P5
P1 VDD_IOSCLP2 CS P6
P7INT/DRDY
GN
DP5
SDA
P4
VDD P8INT2 P9OCS P10NC P11
GN
DP6
*2
GND
VDD
IOP5
GN
D1
P6
GN
D2
P7VD
D
GND
100n
GND
VDD
P9
VDD
_IO
P10
GND
100n
MP34DT05-A
GN
D1
P8
GN
D2
P9
VDD
P10
RES
P3
SDA
P4
VDD
U8
C29
C3
C15
VDD
VDD
C14
SDOP1
SDXP2
SCXP3
INT1P4
U21
I2C
_SD
A
VDDVDD
VDD
GND
DB
3697 - Rev 6
page 6/17
STEVAL-B
CN
002V1BSchem
atic diagrams
Figure 5. STEVAL-BCN002V1 schematic (3 of 3)
Test points
P1 P1P2 P2P3 P3P4 P4P5 P5P6 P6P7 P7P8 P8P9 P9P10 P10
U4
SP+2
R3
ADC
C8
VDD
+P+1P- -
SWDIO
SWDCLK
NRST
TEST1
L_G
L_B
UAR
T_R
XI2C_SDA
P1P1
P2P2
P3P3
P4P4
onnectorebug cdARM10
RGB LEDPull-ups
CR2032 3 V battery
Push uttonb SML-
LX04
04SI
UPG
USB
GND
GND
GND
GND
VDD
VDD
R4
R5
R2
T1S+
R8
GN
DSD
ACLK
R9
SW1
UART_RX
UART_TXBOOT
B3U
-300
0P(M
)
VDD
GN
D
10k
10k
VDD
VDD
52575 135
VDD
I2C
_SD
A
L_R
FTS-105-01-F-D
100p
GND
I2C_CLK
100
VDD I2
C_C
LK
GND
BAT-HLD-001
CN1
DB
3697 - Rev 6
page 7/17
STEVAL-B
CN
002V1BSchem
atic diagrams
2.2 STEVAL-BCN002V1D programming board schematics
Figure 6. STEVAL-BCN002V1D schematic (1 of 3)
Voltage Regulator
USB ESD Protection
Micro USB Connector
STM32L1 VCOM Interface
Crystal and Bypass capacitors
STM32L151CBT6
USBLC6-2P6
10u
18p 18p
7A-8.000MAAJ-T
GND GND
100n
GND
100n
GND
100n
GND
100n
GND
100n
GND
100n1u 100n
GNDGND GND GND
1u
GND
LD39015M33R
GND
47k
100n
GNDBA
T54C
0
0VDDA9
VDD_124
VDD_236
VDD_348
VLCD1
BOOT044
PA0-WKUP110
PA111
PA212
PA313
PA414
PA515
PA616
PA717
PA829
PA930
PH0-OSC_IN5
PA1031
PA1132
PA1233
PA1334
PC14-OSC32_IN3
PA1437
PA1538
VSS_123
VSS_235
VSS_347
VSSA8
PB0 18
PB1 19
PB2 20
PB3 39
PB4 40
PB5 41
PB6 42
PB7 43
PB8 45
PB9 46
PB10 21
PB11 22
PB12 25
PB13 26
PB14 27
PB15 28
NRST 7
PH1-OSC_OUT 6
P-C13_RTC_AF1-WKUP2 2
PC15-OSC32_OUT 4
U1
GND2
I/O1 6I/O1.1
I/O2 4I/O2.3
VBUS 5
U2
C1
C2 C3
X1
C4 C5 C6 C7 C8
C9C10 C11
C12IN1 OUT 5
EN3 GND 2
U3
R3
C13
D1
R15
R16P11
P22
P33
P44
P55
G1
M1
G2
M2
G3
S1G
4S2
G5
S3G
6S4
USB
GND
GNDGNDGNDGND
GNDGND
GN
D
GNDGND
BOOT
RESETN
VDD_MCU
VDD_MCUVDD_MCUVDD_MCUVDD_MCU
VDD
_MC
U
VDD
_MC
U
VDD
_MC
U
VDD
_MC
U
VDD
_MC
U
VDD_MCU
VDD_MCU
VDD
_MC
U
JTMS
JTCK
JTDO
JTDI
USBDM
USBDM
USBDP
USBDP
VUSB
VUSB
VUSB
VUSB
DM
DM
DPDP
OSC_OUT
OSC
_OU
TOSC_IN
OSC
_IN
NRST_MCU
NR
ST_M
CU
5V_V3
UART_RX_STM32UART_TX_STM32
Mic
ro U
SB
DB
3697 - Rev 6
page 8/17
STEVAL-B
CN
002V1BSchem
atic diagrams
Figure 7. STEVAL-BCN002V1D schematic (2 of 3)
STM32L1 Debug Connector
BlueTile Debug Connector
JTAG Debug Connector
Nucleo STLink SWD Connector
Reset Button
Anchor Connector
Anchor Connectors
Nucleo STLink UART connector
Pogo pin
GNDGND
1296-T10 1296-T10
1296-T10 1296-T10
GND
NPTC041KFXC-RC
GND
0921-1-15-20-75-14-11-0
0015912200
n.p.
n.p.
NPP
C02
1KFX
C-R
C
NPP
C02
1KFX
C-R
C
NPP
C02
1KFX
C-R
C
NPP
C02
1KFX
C-R
CB3
U-3
000P
(M)
X2-1 X2-2X2-3 X2-4X2-5 X2-6X2-7 X2-8X2-9 X2-10
X4-1 X4-2X4-3 X4-4X4-5 X4-6X4-7 X4-8X4-9 X4-10
P1P1
P2P2
P3P3
P4P4
U4
P1P1U5
JTAG
P1P3P5
P2P4P6
P7P9
P8P10
P11P13P15
P12P14P16
P17P19
P18P20
R6
R8
CN7P1CN7P2CN7P3CN7P4CN7P5
CN
1P1 P2
CN
11P1 P2
CN
6P1 P2
CN
3P1 P2
SW1 GND
GND
GNDGNDGNDGNDGNDGNDGND
GNDGNDGNDGND
GNDGND
GND
GND
BOOTRESETN
RES
ETN
RESETNRESETN
VDD_MCU JTMSJTCKJTDOJTDI
VDD VDD
VDD
VDDSWDIO
SWDIO
SWDIO
SWDCLK
SWDCLK
SWDCLK
UART_TX
UAR
T_TX
UART_RX
UAR
T_R
X
DB
3697 - Rev 6
page 9/17
STEVAL-B
CN
002V1BSchem
atic diagrams
Figure 8. STEVAL-BCN002V1D schematic (3 of 3)
Default configuration allow user to:
1) If PLUGGED on a NUCLEO STLink:- Hardware modification: populate R6 and R8 with 0 ohm- Programming: using Nucleo STLink mini USB- Virtual COM: using Nucleo STLink mini USB; both SW3 and SW2 must be in (P1-P2) position
2) If using an EXTERNAL JTAG debugger:- Programming: using JTAG connector on top- Virtual COM: using micro USB connector on the bottom; both SW3 and SW2 must be in (P2-P3) position
3) If using the INTEGRATED USB to UART interface:- Programming: using micro USB connector on the bottom and only using BlueNRG-1 Flasher Utility- Virtual COM: using micro USB connector on the bottom; both SW3 and SW2 must be in (P2-P3) position
4) If using the INTEGRATED ST-LINK/V3:- Hardware modification: populate R4 and R14 with 0 ohm- Programming: using ST-LINK/V3 SWD- Virtual COM: using ST-LINK/V3 micro USB; both SW3 and SW2 must be in (P1-P2) position
ST-LINK/V3
0
10k
NPP
C02
1KFX
C-R
C
n.p.
n.p.
n.p.
n.p.
n.p.
B_UART_RXP1
B_UART_CTSP2
B_UART_RTSP3
T_JTMSP4
GND_DETECTP5
T_JTDOP6
B_SPI_CLKP7
GND_1P8
B_CAN_RXP9
B_CAN_TXP10
B_UART_TXP11
T_VCP_TXP12
T_JTCKP13
B_SPI_NSSP14
T_VCP_RXP15
B_I2C_SCLP16
T_SW_DIR P32
T_NRST P31
T_VCC P30
GND_5 P29
T_JTDI P28
GND_4 P27
GND_3 P26
B_SPI_MOSI P25
GND_2 P24
B_SPI_MISO P23
5V_POWER_SUPPLY P22
B_GPIO3 P21
B_GPIO2 P20
B_GPIO1 P19
B_GPIO0 P18
B_I2C_SDA P17
ST1
R2
R9
CN
5P1 P2
R1
R10
R13
R14
R4
P1P1
P2P2
P3P3
SW2
P1P1
P2P2
P3P3
SW3
GND
GNDGND
GNDGND
GND
GND
BOOT
BOOT
RESETN
VDD_MCUVDD
VDD
VDD
SWDIO
SWDCLK
UART_TX
UART_RX5V_V3 UART_RX_STM32
UART_RX_V3
UART_RX_V3
UART_TX_STM32
UART_TX_V3
UART_TX_V3
DB
3697 - Rev 6
page 10/17
STEVAL-B
CN
002V1BSchem
atic diagrams
3 How to set up the STEVAL-BCN002V1D board
Use the configurations below to set up the STEVAL-BCN002V1D board according to your requirements.
If plugged on a NUCLEO ST-LINK board:Step 1. Place 0 Ω resistors (short) on R6 and R8.Step 2. For programming: load the firmware via the NUCLEO ST-LINK mini USB connector.Step 3. For virtual COM: use the NUCLEO ST-LINK mini USB connector.
SW3 and SW2 can be in any position.If using an external JTAG debugger:
Step 4. For programming: use the JTAG connector on the top side of the STEVAL-BCN002V1D board.Step 5. For virtual COM: use the micro USB connector on the bottom side of the STEVAL-BCN002V1D board.
SW3 and SW2 can be in any position.If using the integrated USB to UART interface:
Step 6. For programming: use the micro USB connector on the bottom and use the BlueNRG-1 Flasher Utilityonly.
Step 7. For virtual COM: use the micro USB connector on the bottom side of the STEVAL-BCN002V1D board.Both SW3 and SW2 must be in (P2-P3) position.
If using the integrated ST-LINK/V3:Step 8. Place 0 Ω resistors (short) on R4 and R14.Step 9. For programming: use the ST-LINK/V3 SWD.Step 10. For virtual COM: use the ST-LINK/V3 micro USB.
Both SW3 and SW2 must be in (P1-P2) position.
STEVAL-BCN002V1BHow to set up the STEVAL-BCN002V1D board
DB3697 - Rev 6 page 11/17
4 Certification
4.1 Regulatory compliance
Table 1. RF certification summary
Certification ID Comment
FCC S9NSTEBCN2V1 (PENDING) On-board SMD antenna
IC 8976C-STEBCN2V1 (PENDING) On-board SMD antenna
ETSI 0051-RED-0010 REV.0 (PENDING) On-board SMD antenna
4.2 FCC and ICThe STEVAL-BCN002V1B kit has been tested and complies with the FCC part 15 and IC RSS-210 regulations.These limits are designed to provide reasonable protection against harmful interference in approved installations.This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used inaccordance with the instructions, may cause harmful interference to radio communications.However, there is no guarantee that interference will not occur in a particular installation.This device complies with part 15 of the FCC rules. Operation is subject to the following two conditions:1. The device must not cause harmful interference.2. The device must accept any interference received, including interference that may cause undesired
operation.Modifications or changes to this equipment not expressly approved by the party responsible for compliance mayrender void the user's authority to operate this equipment.
4.3 CESTEVAL-BCN002V1B kit complies with the following European EMI/EMC and safety directives and standards:• EN 300 328 V 2.1.1 (2016-11) (a)• ETSI EN 301 489-17 V3.1.1 (2017-02) (b)• ETSI EN 301 489-1 V2.1.1 (2017-02) (c)• EN 60950-1:2006 + A11:2009 + A1:2010 + A12:2011 + A2:2013 (d)• EN 62479:2010
The module has the CE marking:
Figure 9. CE marking
The module has obtained the RED certificate: No. 0051-RED-0010 REV. 0The certified module production firmware release is: 1.XFor additional information please refer to:STMicroelectronics Via C. Olivetti, 2 Agrate Brianza 20864 (ITALY)
STEVAL-BCN002V1B
DB3697 - Rev 6 page 12/17
Revision history
Table 2. Document revision history
Date Version Changes
06-Aug-2018 1 Initial release.
07-Aug-2018 2 Minor text changes.
18-Oct-2018 3 Updated Section 2 Schematic diagrams.
13-Nov-2018 4Updated cover page image.
Updated Figure 1 and Figure 2.
06-Feb-2019 5Updated title.
Added references to STBLESensor app.
04-Mar-2019 6Minor text edits
Added Section 2.2 STEVAL-BCN002V1D programming board schematics
STEVAL-BCN002V1B
DB3697 - Rev 6 page 13/17
Contents
1 Component layout . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
2 Schematic diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
2.1 STEVAL-BCN002V1 sensor board schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.2 STEVAL-BCN002V1D programming board schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
3 How to set up the STEVAL-BCN002V1D board. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .11
4 Certification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .12
4.1 Regulatory compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
4.2 FCC and IC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
4.3 CE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
STEVAL-BCN002V1BContents
DB3697 - Rev 6 page 14/17
List of figuresFigure 1. STEVAL-BCN002V1 sensor node front and rear components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2Figure 2. STEVAL-BCN002V1D host board for programming and debugging . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Figure 3. STEVAL-BCN002V1 schematic (1 of 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Figure 4. STEVAL-BCN002V1 schematic (2 of 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Figure 5. STEVAL-BCN002V1 schematic (3 of 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Figure 6. STEVAL-BCN002V1D schematic (1 of 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Figure 7. STEVAL-BCN002V1D schematic (2 of 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Figure 8. STEVAL-BCN002V1D schematic (3 of 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Figure 9. CE marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
STEVAL-BCN002V1BList of figures
DB3697 - Rev 6 page 15/17
List of tablesTable 1. RF certification summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Table 2. Document revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
STEVAL-BCN002V1BList of tables
DB3697 - Rev 6 page 16/17
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STEVAL-BCN002V1B
DB3697 - Rev 6 page 17/17