RAK4200(H) LoRa Module
WisDuo LoRa Module
Version V1.4 Apr2020
2
Table of Contents
1. Overview.....................................................................................................................3
1.1 Introduction .........................................................................................................3
1.2 Main Features.....................................................................................................3
2. RAK4200(H) LoRa Module.........................................................................................3
2.1 Overview.............................................................................................................3
2.2 Block Diagram.....................................................................................................4
2.3 Supported LoRaWAN bands ..............................................................................4
2.4 Pin Definition & Pin Out ......................................................................................5
2.5 Power Consumption ...........................................................................................7
2.6 Recommended Circuit ........................................................................................7
2.7 Mechanical Dimensions ......................................................................................9
2.8 Recommended Footprint ....................................................................................9
2.9 Recommended Reflow Profile ..........................................................................10
3. Revision History.......................................................................................................12
4. Document Summary ................................................................................................12
3
1. Overview
1.1 Introduction
RAK4200(H) LoRa Module includes an STM32L071 MCU and an SX1276 LoRa chip. It
has Ultra-Low Power Consumption of 1.5uA in sleep mode and high LoRa output power
up to 19dBm max in work mode.
The module complies with LoRaWAN 1.0.2 protocols. It also supports Lora Point to Point
communications. The module is suitable for various applications that require long range
data acquisition and low power consumption.
1.2 Main Features
LoRa module for Smart City, Smart Agriculture, Smart Industry
Compact Form Factor: 15 x 15.5 x 2.5 mm
20 Pin Stamp Pad for PCB SMT mounting
I/O ports: UART/I2C/GPIO
Temperature range: -40°C to +85°C
Supply voltage: 2.0 ~ 3.6V
Frequency range: 863–870MHz (EU) / 902–928MHz (US)
Low-Power Wireless Systems with 7.8kHz to 500KHz Bandwidth
Ultra-Low Power Consumption 1.5uA in sleep mode
Core: ARM 32-bit Cortex – M0+ with MPU
Up to128KB flash memory with ECC
20KB RAM
6KB of data EEPROM with ECC
2. RAK4200(H) LoRa Module
2.1 Overview
The figure below shows the top view of the RAK4200(H) LoRa Module. The dimensions
of the Module are 15 x 15.5 x 2.5 mm.
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Figure 1 | RAK4200 LoRa Module
2.2 Block Diagram
The Block diagram below shows the external interfaces of the RAK4200(H) LoRa Module.
Figure 2 | Block Diagram
2.3 Supported LoRaWAN bands
The RAK4200(H) LoRa Module supports the high LoRaWAN bands (refer to the Table 1)
Module
Region
Frequency (MHz)
RAK4200(H)
Indian
IN865
5
Europe
EU868
North America
US915
Australia
AU915
Korea
KR920
Asia
AS923
Table 1 | Operating Frequencies
2.4 Pin Definition & Pin Out
The figure below shows the pinout of the RAK4200(H) LoRa Module.
Figure 3 | Pinout
The table below shows the pin definition of the RAK4200(H) LoRa Module.
Pin
Name
I/O
Description
Alternate functions
1
UART2_RX
I
This UART port is used
as an AT command
port(STM32L071KBU6 PA3)
USART1_RX,
I2C1_SDA
2
UART2_TX
O
This UART port is used
as an AT command
port( (STM32L071KBU6
PA2)
MCO, USART1_TX,
I2C1_SCL, I2C3_SMBA
3
UART2_DE
I/O
GPIO (STM32L071KBU6
SPI1_MOSI,EVENTOUT,
6
PA1)
USART1_RTS_DE,
COMP2_OUT
4
UART1_TX
I/O
This UART port can be
used as an AT
command port and an
upgrade port or General
GPIO (STM32L071KBU6
PA9)
TIM21_CH1,TIM2_CH3,
USART2_TX,LPUART1_TX,
COMP2_OUT,COMP2_INM,
ADC_IN2
5
UART1_RX
I/O
This UART port can be
used as an AT
command port and an
upgrade port or General
GPIO (STM32L071KBU6
PA10)
TIM21_CH2,TIM2_CH4,
USART2_RX,LPUART1_RX,
COMP2_INP,ADC_IN3
6
UART1_DE
I/O
General GPIO or
UART(Reserved)
(STM32L071KBU6 PA12)
EVENTOUT,TIM2_CH2,USART2_RT
S_DE,
TIM21_ETR,
USART4_RX,COMP1_INP,
ADC_IN1
7
SWDIO
I/O
Programming
(STM32L071KBU6 PA13)
SWDIO, LPUART1_RX
8
SWCLK
I/O
Programming
(STM32L071KBU6 PA14)
SWCLK, USART2_TX,
LPUART1_TX
9
I2C_SCL
I/O
I2C interface
(STM32L071KBU6 PB6)
USART1_TX,I2C1_SCL,
LPTIM1_ETR,COMP2_INP
10
I2C_SDA
I/O
I2C interface
(STM32L071KBU6 PB7)
USART1_RX,I2C1_SDA,
LPTIM1_IN2,USART4_CTS,
COMP2_INP,VREF_PVD_IN
11
GND
-
Ground
-
12
RF
I/O
RF port (reserved), default RF
out by IPEX
-
13
GND
-
Ground
-
14
GND
-
Ground
-
15
SPI_CLK
I/O
Reserved PA5
SPI_CLK,leave it un-connect on
mainboard
16
SPI_MISO
I/O
Reserved PA6
SPI_MISO, leave it un-connect on
mainboard
17
SPI_MOSI
I/O
Reserved PA7
SPI_MOSI, leave it un-connect on
mainboard
18
MCU_NRST
I/O
MCU reset (STM32L071KBU6
NRST)
-
19
GND
-
Ground
Ground
20
VDD
-
DC3V3
Supply voltage 2.0~3.3V
7
Sleep Mode 1.5uA
Table 2 | Pin Definitions
2.5 Power Consumption
Current
Output Power
Frequency
868MHZ 19dBm 120mA on PA_BOOST
Receive Mode 15mA
Table 3 | Power Consumption
2.6 Recommended Circuit
RAK4200(H) module recommended circuit as below:
2.6.1 SWD programming Port
When programming with JLINK tool , it is need to connect 5 pins of 3V3,SWDIO,
SWCLK,GND and MCU_NRST. So it is better to leave these 5 pins for SWD
programming.
17 dBm 87mA on PA_BOOST
8
2.6.2 UART port
There are two UART ports on RAK4200(H) module. UART2(pin1 and pin2) is used
as a command port and UART1(pin4 and pin5) is used both as a command and an
upgrade port. So it is better to connect UART2 to external MCU and UART1 is used
as a debug or upgrade port.
2.6.3 I2C port
Pin9 and Pin10 are recommended as I2C port. Just pull up with 10K resistance if use
it.
2.6.4 RF port
There are two types of RF port. One is with Ipex connector and another is PAD type.
For Ipex type just connect the antenna to the Ipex connector on the module directly.
For PAD type you can design the antenna as Ipex or SMA or Spring type.
2.6.5 SPI port
The SPI (pin15 ,pin16,pin17) has connected to the SX1276 in the internal of the
module.
So it is better not to use these 3 pins and just leave it un-connect on the mainboard.
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2.7 Mechanical Dimensions
The figure below shows the mechanical dimension of the RAK4200(H) LoRa Module.
Figure 4 | Mechanical Dimensions
2.8 Recommended Footprint
10
Figure 5 | Recommended Footprint
2.9 Recommended Reflow Profile
Figure 6 | Recommended Reflow Profile
11
Standard conditions for reflow soldering:
Pre-heating Ramp (A) (Initial temperature: 150℃): 1~2.5℃/sec;
Soaking Time (T2) (150℃~180℃): 60sec~100sec;
Peak Temperature (G): 230~250℃;
Reflow Time (T3) (>220℃): 30~60 sec;
Ramp-up Rate (B): 0~2.5℃/ sec;
Ramp-down Rate (C): 1~3℃/ sec.
Please contact us if you need technical support or need more information.
Support center: https://forum.rakwireless.com/
Email us: [email protected]
1
Statement
This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions:
(1) this device may not cause harmful interference, and (2) this device must accept any interference
received, including interference that may cause undesired operation.
FCC Caution:
Changes or modifications not expressly approved by the part responsible for compliance could void the
user's authority to operate the equipment.
FCC RF Radiation Exposure Statement Caution: This Transmitter must be installed to provide a
separation distance of at least 20 cm from all persons.
FCC Statement:
"This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant
to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference in a residential installation. This equipment generates, uses and can radiate radio frequency
energy and, if not installed and used in accordance with the instructions, may cause harmful interference
to radio communications. However, there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or television reception, which can
be determined by turning the equipment off and on, the user is encouraged to try to correct the interference
by one or more of the following measures:
—Reorient or relocate the receiving antenna.
—Increase the separation between the equipment and receiver.
—Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
—Consult the dealer or an experienced radio/TV technician for help."
IC statement:
This device complies with Industry Canada licence-exempt RSS standard(s).
Operation is subject to the following two conditions: (1) this device may not cause interference, and (2)
this device must accept any interference, including interference that may cause undesired operation of
the device.
Le présent appareil est conforme aux CNR d'Industrie Canada applicables aux appareils radio exempts
de licence. L'exploitation est autorisée aux deux conditions suivantes : (1) l'appareil ne doit pas produire
de brouillage, et (2) l'utilisateur de l'appareil doit accepter tout brouillage radioélectrique subi, même si le
brouillage est susceptible d'en compromettre le fonctionnement.
This equipment complies with Industry Canada radiation exposure limits set forth with a separation
Cet émetteur doit être installé pour fournir une distance de séparation d'au moins 20 cm de toute
personne.
The proposed FCC IC label format is to be placed on the module. If it is not visible when the module is
installed into the system, “Contains FCC ID: 2AF6B-RAK4200H, Contains IC: 25908- RAK4200H” shall
be placed on the outside of final host system.
Labelling
— This radio transmitter [25908-RAK4200H] has been approved by Innovation, Science and Economic
Development Canada to operate with the antenna types listed below, with the maximum permissible gain
indicated. Antenna types not included in this list and same type greater than the maximum gain are strictly
prohibited for use with this device.
— L'émetteur [25908-RAK4200H] a été approuvé par innovation, sciences et développement économique
Canada pour fonctionner avec les types d'antennes énumérés ci - dessous, avec les gains maximums
admissibles indiqués ci - dessous. Les types d'antennes non inclus dans cette liste et les mêmes types
d'antennes dont le gain est supérieur au gain maximal ne doivent pas être utilisés avec cet équipement.
Antenna info
Model Manufacturer Antenna Gain Antenna Type Connector Type
RAKARG19 5.1dBi Fiber Glass
Antenna
N-type male
connector
KRAKBJ2701C01C
Shenzhen
RAKwireless
Technology
Co.,Ltd. 2.3 dBi Dipole Antenna RPSMA connector
12
Penn & VladislavHairui
Approved byChecked byPrepared by
3. Revision History
Revision Description Date
1.0 Initial version 2019-05-24
1.1 Revision of parameters 2019-10-24
1.2 Revision of parameters 2020-01-07
1.3 Add Recommended Circuit Chapter 2020-03-17
4. Document Summary
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RAK 200 WisDuo LoRa Module Manuel utilisateur
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