N620PA has low cost, low power consumption and long distance. Designed by 4-layer board, 50Ω impedance matching and anti-interference, IoT, intelligent home, wireless meter reading, scientific research and medical treatment, and medium and long-distance wireless communication equipment.
N620PA leads most pins of CC1310 out for secondary development.
N620PA (CC1310) is suitable for free frequency band in EU and USA.
ISM Frequency supported by N620PA module
770M band: 770 MHz to 780 MHz (China)
868M band: 868 MHz to 870 MHz (China, EU, USA)
888 MHz to 889 MHz (Australia)
915M band: 902 MHz to 928 MHz (USA)
RF Interface | Parameter |
Frequency | 860MHz-960MHz |
Output Power | +27dBm |
Sensitivity | -112dBm |
Symbol Rate | 0.3-4000kbps |
Deviation | +/-10kHz |
Distance | 8000m |
Hardware parameters | Value |
Size | 32.8 x 24.6 x 3mm |
Antenna Interface | IPEX, RF PIN |
Interface | UART, SPI |
Package | SMD |
Electrical Parameters | Minimum | Typical | Maximum |
Volt | 1.8V | 3.3V | 3.9V |
Emission Current | 800mA | ||
Receiving Current | 10mA | ||
Sleep current | 1uA | ||
Working Temperature | -30℃ | 75℃ |
N620PA's CC1190 control Logic
Pin Definition
Pin Number | function | Pin Number | function |
1 | GND | 19 | DIO17 |
2 | VCCPA | 20 | DIO18 |
3 | VDD | 21 | DIO19 |
4 | DIO1 | 22 | RST |
5 | DIO2 | 23 | DIO20 |
6 | DIO3 | 24 | DIO21 |
7 | DIO4 | 25 | DIO22 |
8 | DIO5 | 26 | DIO23 |
9 | DIO6 | 27 | DIO24 |
10 | DIO10 | 28 | DIO25 |
11 | DIO11 | 29 | DIO26 |
12 | DIO12 | 30 | DIO27 |
13 | DIO13 | 31 | DIO28 |
14 | DIO14 | 32 | DIO29 |
15 | DIO15 | 33 | DIO30 |
16 | TMS | 34 | RF |
17 | TCK | 35 | GND |
18 | DIO16 |
Mechanical drawing
Ordering information
N620PA-868M CC1310+CC1190 27dbm, 860Mhz-880Mhz
N620PA-915M CC1310+CC1190 27dbm, 910Mhz-930Mhz
Other Dongle USB
N534AP-433M CC1310 14dbm, 410Mhz-510Mhz
N534AP-868M CC1310 14dbm, 860Mhz-960Mhz
How to test N620PA module
Take the supporting base plate of Heyan technology as an example:
The bottom board of N620PA is T532AP, which integrates USB to serial chip, led, button, burning port and module card port. As shown in the figure:
N620PA secondary development method:
The CC1310 module is stuck on the backplane as shown in the figure, and the IPEX is connected with the antenna. The burning port is connected with xds110 according to the silk screen printing, and then online simulation can be carried out to test the performance of the module.
Module Programming
The schematic diagram of the module base plate can be obtained from our official website.
Please contact us for specific programming information or download it from TI official website www.ti.com.