STEVAL-IDB012V1
Data brief
Evaluation platform based on the BlueNRG-LPS system-on-chip
Features
•
Bluetooth® Low Energy evaluation board based on the BlueNRG-LPS SoC in
QFN32 package that supports:
–
Master, slave, and simultaneous master-and-slave roles
–
Long range, 2 Mbps data rate
–
Direction finding with angle of arrival (AoA) and angle of departure (AoD)
Bluetooth® Low Energy data length extension, extended advertising
and scanning, channel selection algorithm #2, GATT caching, LE ping
procedure, LE power control, and path loss monitoring
Uncompromised low-power radio performances:
–
Up to +8 dBm programmable output power (at antenna connector)
–
Excellent receiver sensitivity (-96 dBm @1 Mbps, -103 dBm @125 bps long
range)
–
Very low-power consumption: 3.4 mA Rx @ sensitivity level, and 4.3 mA Tx
@ +0 dBm
Integrated PCB antenna, UFL connector for measuring equipment, and Arduino
R3 connectors
Three power options: USB cable, battery, and external power supply
Associated BlueNRG-LPS development kit software package (STSW-BNRGLPDK) including firmware and documentation
Three user LEDs and two user buttons
MEMS digital accelerometer/gyroscope
MEMS digital pressure/temperature sensor
Embedded CMSIS-DAP debugger and drag and drop programming support
RoHS compliant
–
•
Product summary
Evaluation platform
based on BlueNRGLPS system-on-chip
STEVAL-IDB012V1
BlueNRG-LP DK
SW package
STSW-BNRGLPDK
Programmable
Bluetooth Low
Energy Wireless
SoC
BlueNRG-332AC
Application
Wireless
Connectivity
•
•
•
•
•
•
•
•
Description
The STEVAL-IDB012V1 evaluation platform is designed to develop and test
Bluetooth® Low Energy applications using the low power BlueNRG-LPS system-onchip, in combination with inertial and environmental MEMS sensors, a digital MEMS
microphone, and various interface buttons and LEDs.
The BlueNRG-LPS features a 64 MHz, 32-bit Arm Cortex®-M0+ core, 192 KB
programmable flash memory, 24 KB SRAM, MPU, and an extensive peripheral set
(4x PWM, I²C, SPI/I2S, SPI, USART, LPUART, and 12-bit ADC SAR).
The BlueNRG-LPS is compliant with the Bluetooth® Low Energy specification. It
supports master, slave, simultaneous master and slave roles, data length extension,
2 Mbps, long range, extended advertising and scanning, channel selection algorithm
#2, GATT caching, LE ping procedure, LE power control and path loss monitoring,
and direction finding (angle of arrival/angle of departure) features.
Serial communication with a PC and three power options (USB only, battery only, and
external power supply) allow complex application development and testing flexibility.
DB4694 - Rev 1 - April 2022
For further information contact your local STMicroelectronics sales office.
www.st.com
DB4694 - Rev 1
1
Schematic diagrams
Figure 1. STEVAL-IDB012V1 circuit schematic (1 of 7)
Debugger
PA2_SWDIO
PA3_SWCLK
PB0_UART_RX
PA1_UART_TX
PA10_PUSH1
BLE_NRST
DBG_SWDIO
DBG_SWCLK
USB_D_P
USB_D_N
DP-CON
DBG_USART_TX
DBG_USART_RX
DBG_SPI_CS
DBG_SPI_SCK
DBG_SPI_MISO
DBG_SPI_MOSI
DBG_BOOTLOADER
DBG_RESET
USB_D_P
USB_D_N
DP-CON
PA9_SPI_CS
PB3_SPI_CLK
PA8_SPI_MISO
PA11_SPI_MOSI
Power Supply
USB_D_P
USB_D_N
DP-CON
USB_D_P
USB_D_N
DP-CON
Power_supply.SchDoc
DAP_Link.SchDoc
Buttons & LEDs
LED_RGB
LED_GREEN
LED_RED
PUSH_RSTN
PUSH1
PUSH2
CN2_1
Sensors
PB1_LED_RGB
PB4_LED_GREEN
PB2_LED_RED
BLE_NRST
PA10_PUSH1
PB5_PUSH2
PB14_INT1_LSM6D
PA11_SPI_MOSI
PA8_SPI_MISO
PB3_SPI_CLK
PB15_CS_LSM6D
PA0_LPS2X_SCL
PB7_LPS2X_SDA
LSM6D_INT1
LSM6D_SPI_MOSI
LSM6D_SPI_MISO
LSM6D_SPI_SCK
LSM6D_SPI_CS
CN1_9
LPS2X_SCL
LPS2X_SDA
VBRD
Buttons_and_LEDs.SchDoc
Sensors.SchDoc
CN2_5
CN2_7
CN2_8
PB2_LED_RED
PB1_LED_RGB
PB0_UART_RX
PB4_LED_GREEN
PA1_UART_TX
CN4_2
CN4_3
CN4_4
CN4_5
CN4_6
BLE_NRST
PA0
PA1_UART_TXD
PA2_SWDIO
PA3_SWCLK
PA8_SPI_MISO
PA9_SPI_CS
PA10
PA11_SPI_MOSI
RSTN
CN1_2
PB0_UART_RXD
PB1
PB2
PB3_SPI_CLK
PB4
PB5
PB6
PB7
PB12
PB13
PB14
PB15
BlueNRG-LPS_QFN32_F_ANT.SchDoc
PB0_UART_RX
PB1_LED_RGB
PB2_LED_RED
PB3_SPI_CLK
PB4_LED_GREEN
PB5_PUSH2
PB6
PB7_LPS2X_SDA
PB12
PB13
PB14_INT1_LSM6D
PB15_CS_LSM6D
CN1_1
PB3_SPI_CLK
PA8_SPI_MISO
PA11_SPI_MOSI
PA9_SPI_CS
PA10_PUSH1
PA0_LPS2X_SCL
CN3_8
CN3_7
CN3_6
CN3_5
CN3_4
CN3_3
CN3_2
CN3_1
PB12
PB13
PB15_CS_LSM6D
PB14_INT1_LSM6D
page 2/11
Schematic diagrams
Connectors.SchDoc
CN1_3
BlueNRG-332AC
PA8_SPI_MISO
PA9_SPI_CS
PA10_PUSH1
PA11_SPI_MOSI
VBRD
STEVAL-IDB012V1
PB5_PUSH2
CN4_1
CN1_6
CN1_4
CN2_4
PA0_LPS2X_SCL
PA1_UART_TX
PA2_SWDIO
PA3_SWCLK
PB7_LPS2X_SDA
CN1_8
CN1_5
CN2_3
CN2_6
PB6
CN1_7
CN2_2
BLE_NRST
CN1_10
DB4694 - Rev 1
Figure 2. STEVAL-IDB012V1 circuit schematic (2 of 7)
C1
C2
Q1
8.2p_0402
8.2p_0402
PB13
PB12
PB15
PB14
PB7
PB13
PB13
PB6
C6
L1
L2
10uH_0603
22n_0402
VCAP
100n_0402
RSTN
4u7_0402
PB5
PB4
VDD1
25
26
27
28
29
30
31
32
GND
BlueNRG-332AC
J1
UFL
C3
16
15 VDDRF
14 RF1
13
VBLUE
12
PA11_SPI_MOSI
11
PA10
10
PA9_SPI_CS
9
PA8_SPI_MISO
OSCOUT
VDDRF
RF1
VDD2
PA11
PA10
PA9
PA8
A1
0.4pF_0402
L3
0.0024uH_0402
C7
0.8pF_0402
C4
L4
0.003uH_0402
20pF_0402
1
L5
0.0031uH_0402
C8
C9
C11
C10
1.6pF_0402
0.6pF_0402
NM
NM
2
3
PRINTED IFA
VBLUE
VBLUE
VDDSD
PA0
PA2_SWDIO
PA1_UART_TXD
PA3_SWCLK
PB0_UART_RXD
PB1
PB2
PB3_SPI_CLK
1
2
3
4
5
6
7
8
33
VLXSD
VSS
VFBSD
VCAP
RSTN
PB5
PB4
VDD1
XTAL_HS
PB3
PB2
PB1
PB0
PA3
PA2
PA1
PA0
R1
NM_0603
VDDSD
PB6
PB7
AT3/PB12/XTAL0
AT2/PB13/XTAL1
AT1/PB14
AT0/PB15
OSCIN
24
23
22
21
20
19
18
17
Q2
U1
C5
PB12
VDDSD
VBLUE
PB12
XTAL_LS
VBLUE
VBLUE
VCAP
VDD2
VDDRF
VDD1
C14
4u7_0402
C15
100n_0402
C19
100n_0402
C16
3p_0402
C17
C18
1u_0402
100n_0402
C12
3p_0402
C13
220n_0402
STEVAL-IDB012V1
Schematic diagrams
page 3/11
DB4694 - Rev 1
Figure 3. STEVAL-IDB012V1 circuit schematic (3 of 7)
ARDUINO Connectors
CN1_10
CN1_9
R2
R3
CN1_7
0_0402R7
0_0402R9
CN2_1
CN1_6
CN2_2
CN1_5
CN2_3
CN1_4
CN2_4
CN1_3
CN2_5
CN1_2
CN2_6
CN1_1
0_0402
0_0402R4
CN1_8
1
2
3
4
5
6
7
8
0_0402
0_0402R5
0_0402R6
0_0402R8
0_0402R10
R11
0_0402
0_0402R12
10
9
8
7
6
5
4
3
2
1
CN2_7
CN1
CN2_8
CN2
CN3_8
CN3_7
CN3_6
1
2
3
4
5
6
0_0402R13
0_0402R15
0_0402R17
0_0402R18
0_0402R20
0_0402R22
CN3_5
CN4_1
CN4_2
CN3_4
CN4_3
CN3_3
CN4_4
CN3_2
CN4_5
CN3_1
R14
0_0402
R16
0_0402
0_0402R19
0_0402R21
8
7
6
5
4
3
2
1
CN4_6
CN3
CN4
Test Points
Mounting Holes
V1
V2
V3
TP3
GND
V4
TP4
GND
TP5
GND
Logos
10Y
Don't dispose
FCC Disclaimer
ST
CE
ROHS
UKCA
STEVAL-IDB012V1
Schematic diagrams
page 4/11
VBUS
VBUS
2
11
USB_5V
USB_5V
1
S1
S2
S3
S4
S5
S6
1
12
R23
680
USB_D_N
USB_D_ND_N
2
3
GND VBUS
I/O21I/O22
6
1u_0402
CR2032
LDK120M30R
BATT2
2
1
2
SS
GG
3
DD
USB_5V
VBRD
1
1GG
R24
USB_5V
5
VBAT
JP_VBRD
JP_VBLUE
2
1
DP-CON
I/O11 I/O12
C20
4
Q3
U3
1
NC
VLDO
5
BATT1
R25
1.5K
USB_D_PD_P
EN
1u_0402
VLDO
USB_D_P
OUT
C21
DX07S016JA1R1500
DP-CON
3
IN
DL1
SHIELD
SHIELD
SHIELD
SHIELD
SHIELD
SHIELD
GND
GND
U2
2
CC1
SBU2
DDD+
D+
SBU1
CC2
SS
Q4
STR2P3LLH6
VBLUE
VBRD
DD
3
D_N
D_P
3
4
5
8
6
7
10
9
GND
USB Connector
2
DB4694 - Rev 1
Figure 4. STEVAL-IDB012V1 circuit schematic (4 of 7)
CN5
10K
VBAT
Power Management
4
C22
USBLC6-2SC6
100n_0402
STEVAL-IDB012V1
Schematic diagrams
page 5/11
DP-CON
USB_D_N
USB_D_P
DP-CON
R270_0402
USB_D_N
R280_0402
USB_D_P
JTMS
JTCK
PB1_RESET
R300_0402
DBG_BOOTLOADER
DP-CON
DL2
VBRD
VLDO
R32
680
R33
100
PB13_SWCLK
PB14_SWDIO
26
27
28
55
56
57
58
59
61
62
29
30
33
34
35
36
PA0-WKUP
PA1
PA2
PA3
PA4
PA5
PA6
PA7
PA8
PA9
PA10
PA11
PA12
PA13
PA14
PA15
PC0
PC1
PC2
PC3
PC4
PC5
PC6
PC7
PC8
PC9
PC10
PC11
PC12
PC13
PC14-OSC32_IN
PC15-OSC32_OUT
R26
NM
Q5
JFET-P
3
USB_5V
R29
10K
54
PD2
PB0
PB1
PB2
PB3
PB4
PB5
PB6
PB7
PB8
PB9
PB10
PB11
PB12
PB13
PB14
PB15
8
9
10
11
24
25
37
38
39
40
51
52
53
2
3
4
NRST
PA2_USART_TX
PA3_USART_RX
DBG_SPI_CS
DBG_SPI_SCK
DBG_SPI_MISO
DBG_SPI_MOSI
14
15
16
17
20
21
22
23
41
42
43
44
45
46
49
50
2
Debugger and USB to Serial
converter
1
DB4694 - Rev 1
Figure 5. STEVAL-IDB012V1 circuit schematic (5 of 7)
U4A
NRST
BOOT0
OSC_IN
OSC_OUT
7
NRST
60
BOOT0
5
OSC_IN
6
OSC_OUT
R31
1.5K
BLE Serial Interface
CN7
PA3_USART_RX
C23
OSC_IN
PA2_USART_TX
PB14_SWDIO
20pF
STM32F103RCT6
X1
U4B
Debugger SWD
CN6
1
2
3
4
JTCK
VDD_1
VDD_2
VBRD
VDD_3
VDD_4
JTMS
32
48
64
19
13
VDD_A
1
VDD_1
VDD_2
VDD_3
VDD_4
VSS_1
VSS_2
VSS_3
VSS_4
VDDA
VSSA
C24
31
47
63
18
XTAL_LS
R34
1M
OSC_OUT
PB13_SWCLK
PB1_RESET
1
3
5
7
9
2
4
6
8
10
DBG_USART_RX
DBG_USART_TX
DBG_SWDIO
DBG_SWCLK
DBG_RESET
Header 5X2
20pF
12
VBAT
STM32F103RCT6
VBRD
VBRD
VDD_A
VBRD
VBRD
VBRD
VDD_4
VDD_1VDD_2
C25
C26
C27
C30
100n_0402
1u_0402
100n_0402
VDD_3
C28
C31
C29
1u_0402
100n_0402
100n_0402
100n_0402
STEVAL-IDB012V1
Schematic diagrams
page 6/11
0_0402
R48
1
2
VDD IO
SCL
INT_DRDY
CS
R52
C38
LSM6D_INT1
1
2
3
4
R510_0402
SDA
SCL
CS
R490_0402
100n_0402
3
4
5
10K
LSM6D_SPI_MISO
7
6
RES
SDA
SA0
R500_0402
VBRD
SDO/SA0
NC
SDx
OCS
SCx
INT2
VDD
INT1
5
6
7
C37
100n_0402
U6
10
9
8
U7
VDD
GND
GND
VBRD
LSM6D_SPI_CS
0_0402
R47
100n_0402
14
13
12
R46
C36
4u7_0603
LPS2X_SCL
0_0402
SENSORS
C35
LSM6D_SPI_SCK
LSM6D_SPI_MOSI
VBRD
V DDIO
GND
GND
DB4694 - Rev 1
Figure 6. STEVAL-IDB012V1 circuit schematic (6 of 7)
11
10
9
8
VBRD
C39
LSM6DS3
100n_0402
VBRD
C40
VBRD
LPS2X_SDA
R53
0_0402
R54
10K
VBRD
100n_0402
STEVAL-IDB012V1
Schematic diagrams
page 7/11
DB4694 - Rev 1
Figure 7. STEVAL-IDB012V1 circuit schematic (7 of 7)
BUTTONS
VBRD
VBRD
R35
100
LEDS
R37
100
R360_0402
PUSH1
PUSH2
PUSH1
LED_GREEN
VBRD
PUSH2
R42
R41
R390_0402
C33
C32
100K
NM_0402
GREEN
DL3
R38680
100K
10n_0402
R40
LED_RED
RED
DL4
680
VBRD
VBRD
100K
R43
For multicolor LED solder 680 ohm resistor in R36 and R39
VBRD
U?
PUSH_RSTN
C34
10n_0402
RESET
4
5
6
4
5
6
3
2
1
3
2
1
RED
GREEN
R44680
LED_RGB
AAAF3529
R45
100
STEVAL-IDB012V1
Schematic diagrams
page 8/11
STEVAL-IDB012V1
Kit versions
2
Kit versions
Table 1. STEVAL-IDB012V1 versions
PCB version
STEVAL$IDB012V1A
Schematic diagrams
STEVAL$IDB012V1A schematic diagrams
Bill of materials
STEVAL$IDB012V1A bill of materials
1. This code identifies the STEVAL-IDB012V1 evaluation kit first version. It is printed on the board PCB.
DB4694 - Rev 1
page 9/11
STEVAL-IDB012V1
Revision history
Table 2. Document revision history
DB4694 - Rev 1
Date
Revision
13-Apr-2022
1
Changes
Initial release.
page 10/11
STEVAL-IDB012V1
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© 2022 STMicroelectronics – All rights reserved
DB4694 - Rev 1
page 11/11