The inAir9B is an 868 or 915 MHz wireless module using the Semtech SX1276 chip, with a standard SMA connector for attaching an external antenna. It can be mounted on a custom board, a prototype board, or boards with a 0.9" iMod port. The SX1276 is a revolutionary chip enabling wireless communications at distances up to 15km, using Semtech's LoRa (Long Range) technology. This chip also supports high performance (G)FSK modes for systems including WMBus, IEEE802.15.4g.
This module is a sibling to the inAir9. The difference is that this one has a maximum output power of +20dBm (100mW), whereas the inAir9 has a maximum output of +14dBm (25mW), but also uses less supply current than this module does even when it's set to +14dBm or less. So it's recommended only to get this module if you intend to use the higher output power it can provide.
Also, this module can operate either on the 868 MHz band (for use in Europe only) or 915 MHz (used in North America and parts of Australia). Note: Make sure you only use the frequencies and power output allowed by your country, and obtain any licenses necessary to operate on the frequency.
The board is a high-quality, RF-optimized, 4-layer PCB. It has been designed with assistance from Semtech engineers, ensuring optimum layout and performance. Only brand-name, high-quality components are used. All capacitors and inductors are high-precision parts, resulting in optimized performance. The crystal a very critical component for the SX1276, and is required to be very accurate to achieve high sensitivity. This board uses a high-accuracy crystal as recommended by Semtech.
This module will outperform competitor products that use 2-layer PCBs, cheap capacitors and inductors and low-accuracy crystals.
The inAir9B module enables 3.3V devices (e.g. a microcontroller) to communicate with remote nodes via a wireless protocol. An SMA edge connector is mounted on this board. An SMA antenna is not included; add one using the options at the bottom of this page. Two standard 1×7, 2.54mm (0.1") pin headers (or press-fit headers) can be soldered onto this board (position X1 and X2 on board); choose via the option selector below. If required, this module can be used as an SX1276 breakout board, and wires can be soldered onto the PCB instead of pin headers.
LoRa 868/915MHz Module Features
- Operating voltage from 1.8V to 3.7V for output power up to +17dBm
- Operating voltage from 2.4V to 3.7V for +20dBm output power
- 160 dB maximum link budget
- +20 dBm high-efficiency PA
- Programmable bit rate up to 300 kbps
- High sensitivity: down to -139 dBm (-148 only possible with TCXO)
- Bullet-proof front end: IIP3 = -11 dBm
- Excellent blocking immunity
- Low RX current of 9.9 mA, 200 nA register retention
- Fully integrated synthesizer with a resolution of 61 Hz
- FSK, GFSK, MSK, GMSK, LoRa and OOK modulation
- Built-in bit synchronizer for clock recovery
- Preamble detection
- 127 dB Dynamic Range RSSI
- Automatic RF Sense and CAD with ultra-fast AFC
- Packet engine up to 256 bytes with CRC
- Built-in temperature sensor and low-battery indicator
- High-quality assembly, with brand-name components
- Module dimensions: 27.3 × 24.51 mm (1.075 × 0.965 inches)
- Operating Temperature -40 to +85 °C
Solder Jumper J1 & RF Switch Note that solder jumper J1 at the back of the board has to be made to apply power to the RF Switch. Making jumper J1 applies permanent 3.3V power to the RF Switch (U5 in schematic = PE4259).
If solder jumper J1 is not made, power for the RF switch is supplied via iMod port pin 10, marked VS on the PCB. This is useful for very low-power applications that want to save the 9 to 20µA supply current required by the RF switch. For these applications, power can be supplied (to iMod port pin 10) via a port pin on CPU only when transmitting or receiving.
- Option 1 to power RF Switch:
Make solder jumper J1 on back of board.
- Option 2 to power RF Switch:
Ensure solder jumper J1 is NOT made. RF switch can now be powered on/off by applying 3.3V to iMod port pin 10 (marked VS on PCB).
iMod Pin Configuration This is an iMod module with 0.9" pin column width, meaning it uses a standard pinout and configuration that allows it to be connected easily to any host board that has a 0.9" wide iMod port (some iMod ports may only support 0.7" width). The recommended use is with the Modtronix NZ32-SC151, but you also could use it with the SBC83I or the various PT66E Prototyping Add-ons for boards in the SBC66 series.
The pin pitch is 0.1" so you can use the module also on any typical prototyping board or breadboard.
For information about the iMod pinout, download this iMod Overview. Find other iMod modules in our iMod Category.
Pin Header Options Use the Headers option at the bottom of this page to select what type of pin headers you want included with the module. The default option is for common rectangular pins included loose. All pin header types use 3mm long pins. The header strips will be seven pins for each side.
Below the header option selector, you will see socket strips that will mate with the Round Swiss pin header type. If you want to install the socket strips on your prototype so that you can plug in this module with Round Swiss pins, make sure to change and Update the quantity of sockets to 2 during checkout. (While a 7-pin socket is not available as a separate item, you can break off one pin from the 8-pin sockets to make them into 7-pin sockets.)
LoRa 868/900MHz Module Resources
Optional Recommended Products for this Item
|Quad-band Cellular 9||+|| US$6.95|
|Quad-band Cellular Duck Antenna, SMA||+|| US$4.95|
|Quad-band Wired Cellular Antenna, SMA Connector||+|| US$6.00|
|8-pin Swiss Header, Compact, Breakaway Pins, 2.54mm Pitch||+|| US$0.80|
|8-pin Press-Fit Header Strip, Breakaway Pins, 2.54mm Pitch||+|| US$1.95|
|8-pin Swiss Socket, Compact, Breakaway Pins, 2.54mm Pitch||+|| US$0.88|