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ChirpIoT Module

  • 868MHz Chirp-IoT™ Wireless Transceiver Module with PAN3031 Chip
    Model: DL-PAN3031-S868
    Chip: PAN3031
    Frequency: 868MHz
    Voltage: 1.8~3.6V
    Distance: 3000m
    Size: 17.1*16.1*2mm
    DL-PAN3031-S868 Chirp-IoT™ Wireless Transceiver Module has high receiving sensitivity of -129dBm, ultra-low receiving current and sleep current, the transmit power can be configured through software, with maximum power of +22dBm.
  • Chirp-IoT™ Wireless Transceiver PAN3028 Module 433Mhz/868Mhz/915Mhz
    Model: DL-PAN3028-S
    Chip: PAN3028
    Frequency: 433Mhz/868Mhz/915Mhz
    Voltage: 1.8~3.6V
    Distance: 3000m
    Size: 17.1*16.1*3.9mm
    DL-PAN3028-S is a wireless module designed based on PANCHIP’s radio frequency chip PAN3028. It mainly adopts a new generation of Chirp-IoT ™ Modulation technology for ultra-long-distance spread spectrum communication. This Wireless module is compact in size, and has the characteristics of ultra-low receiving power consumption, strong anti-interference ability, and longer transmission distance than traditional modulation methods. It can be widely used in various wireless communication fields.
  • 433MHz RF Module with PANCHIP’s Chirp-IoT™ RF Chip PAN3031
    Model: DL-PAN3031-S433
    Chip: PAN3031
    Frequency: 433MHz
    Voltage: 1.8~3.6V
    Distance: 3000m
    Size: 17.1*16*2mm
    This 433MHz Wireless Module adopts a new generation of Chirp-IoT™ Modulation technology for ultra-long-distance spread spectrum communication. This Wireless module is compact in size, and has the characteristics of ultra-low receiving power consumption, strong anti-interference ability, and longer transmission distance than traditional modulation methods.
  • 915MHz Wireless Module Base on PANCHIP Chirp-IoT™ PAN3031
    Model: DL-PAN3031-S915
    Chip: PAN3031
    Frequency: 915MHz
    Voltage: 1.8~3.6V
    Distance: 3000m
    Size: 17.1*16.1*2mm
    Compared with traditional modulation technology, Chirp-IoT™ Modulation technology has obvious advantages in adjustable bandwidth, spread spectrumfactor and error correction rate, which solves the problem of distance, anti-interferenceandpower consumption that traditional design schemes cannot take into account at the sametime.