HAC-UEN Ultra Low Power Data Radio module HAC-UEN Ultra Low Power Data Radio Module

HAC-UEN Ultra Low Power Data Radio Module HAC-UEN Ultra Low Power Data Radio Module HAC-UEN Ultra Low Power Data Radio Module

Features of HAC-UEN ultra Low Power Data Radio Module Features of HAC-UEN ultra Low Power Data Radio Module Features of HAC-UEN ultra Low Power Data Radio Module Features of HAC-UEN ultra Low Power Data Radio Module Features of HAC-UEN ultra Low Power Data Radio Module Ultra low power transmission with 100mW as maximal transmission power can be customized to 10-100mW. Ultra low power transmission with 100mW as maximal transmission power can be customized to 10-100mW. Ultra low power transmission with 100mW as maximal transmission power can be customized to 10-100mW. Ultra low power transmission with 100mW as maximal transmission power can be customized to 10-100mW. Ultra low power transmission with 100mW as maximal transmission power can be customized to 10-100mW. Requiring no any frequency, HAC-UEN transceivers work on ISM frequency band and carrier frequencies of 868MHz and 915MHz, only one available once. Requiring no any frequency, HAC-UEN transceivers work on ISM frequency band and carrier frequencies of 868MHz and 915MHz, only one available once. Requiring no any frequency, HAC-UEN transceivers work on ISM frequency band and carrier frequencies of 868MHz and 915MHz, only one available once. Requiring no any frequency, HAC-UEN transceivers work on ISM frequency band and carrier frequencies of 868MHz and 915MHz, only one available once. Requiring no any frequency, HAC-UEN transceivers work on ISM frequency band and carrier frequencies of 868MHz and 915MHz, only one available once. High anti-interference and Low BER (Bit error Rate) High anti-interference and Low BER (Bit error Rate) High anti-interference and Low BER (Bit error Rate) High anti-interference and Low BER (Bit error Rate) High anti-interference and Low BER (Bit error Rate) Based on the Gaussian Frequency Shift Keying (GFSK) modulation, the high-efficiency forward error correction channel encoding technology is used to enhance data’s resistance to both transient and random interference and the actual bit error rate of 10 Based on the Gaussian Frequency Shift Keying (GFSK) modulation, the high-efficiency forward error correction channel encoding technology is used to enhance data’s resistance to both transient and random interference and the actual bit error rate of 10
Based on the Gaussian Frequency Shift Keying (GFSK) modulation, the high-efficiency forward error correction channel encoding technology is used to enhance data’s resistance to both transient and random interference and the actual bit error rate of 10 Based on the Gaussian Frequency Shift Keying (GFSK) modulation, the high-efficiency forward error correction channel encoding technology is used to enhance data’s resistance to both transient and random interference and the actual bit error rate of 10 Based on the Gaussian Frequency Shift Keying (GFSK) modulation, the high-efficiency forward error correction channel encoding technology is used to enhance data’s resistance to both transient and random interference and the actual bit error rate of 10 -5 -5 -5 -5 -5 ~ 10 ~ 10
~ 10 ~ 10 ~ 10 -6 -6 -6 -6 -6 can be achieved when channel bit error rate is 10 can be achieved when channel bit error rate is 10
can be achieved when channel bit error rate is 10 can be achieved when channel bit error rate is 10 can be achieved when channel bit error rate is 10 -2 -2 -2 -2 -2 . . . . . Long Transmission Distance Long Transmission Distance Long Transmission Distance Long Transmission Distance Long Transmission Distance Within the visible range, when the height of antenna is higher than 2m and The Bit Error Rate (BER) is 10 Within the visible range, when the height of antenna is higher than 2m and The Bit Error Rate (BER) is 10
Within the visible range, when the height of antenna is higher than 2m and The Bit Error Rate (BER) is 10 Within the visible range, when the height of antenna is higher than 2m and The Bit Error Rate (BER) is 10 Within the visible range, when the height of antenna is higher than 2m and The Bit Error Rate (BER) is 10 -3 -3 -3 -3 -3 , the reliable transmission distances respectively is 1000m @1200bps, >600m@9600bps and >200m@38400bps. , the reliable transmission distances respectively is 1000m @1200bps, >600m@9600bps and >200m@38400bps. , the reliable transmission distances respectively is 1000m @1200bps, >600m@9600bps and >200m@38400bps. , the reliable transmission distances respectively is 1000m @1200bps, >600m@9600bps and >200m@38400bps. , the reliable transmission distances respectively is 1000m @1200bps, >600m@9600bps and >200m@38400bps. Transparent data transmission Transparent data transmission Transparent data transmission Transparent data transmission Transparent data transmission Transparent data interface used in transceivers is for meeting many standard or nonstandard user protocols. Any false data generated in air can be filtrated automatically (What has been received is exactly what has been transmitted). Transparent data interface used in transceivers is for meeting many standard or nonstandard user protocols. Any false data generated in air can be filtrated automatically (What has been received is exactly what has been transmitted). Transparent data interface used in transceivers is for meeting many standard or nonstandard user protocols. Any false data generated in air can be filtrated automatically (What has been received is exactly what has been transmitted). Transparent data interface used in transceivers is for meeting many standard or nonstandard user protocols. Any false data generated in air can be filtrated automatically (What has been received is exactly what has been transmitted). Transparent data interface used in transceivers is for meeting many standard or nonstandard user protocols. Any false data generated in air can be filtrated automatically (What has been received is exactly what has been transmitted). Multi-channels HAC-UEN transceivers offer Multi-channels in one ISM frequency band satisfying various configuration of communication under user’s demand at the same time and avoiding the interference by other devices in the same locale. (Channels setting is set via serial port command, please see the concrete method in Page6) Multi-channels HAC-UEN transceivers offer Multi-channels in one ISM frequency band satisfying various configuration of communication under user’s demand at the same time and avoiding the interference by other devices in the same locale. (Channels setting is set via serial port command, please see the concrete method in Page6) Multi-channels HAC-UEN transceivers offer Multi-channels in one ISM frequency band satisfying various configuration of communication under user’s demand at the same time and avoiding the interference by other devices in the same locale. (Channels setting is set via serial port command, please see the concrete method in Page6) Multi-channels HAC-UEN transceivers offer Multi-channels in one ISM frequency band satisfying various configuration of communication under user’s demand at the same time and avoiding the interference by other devices in the same locale. (Channels setting is set via serial port command, please see the concrete method in Page6) Multi-channels HAC-UEN transceivers offer Multi-channels in one ISM frequency band satisfying various configuration of communication under user’s demand at the same time and avoiding the interference by other devices in the same locale. (Channels setting is set via serial port command, please see the concrete method in Page6) 1 port with three connection methods HAC-UEN transceivers provide 1 port with three connection ports: a UART interface of TTL 1 port with three connection methods HAC-UEN transceivers provide 1 port with three connection ports: a UART interface of TTL
1 port with three connection methods HAC-UEN transceivers provide 1 port with three connection ports: a UART interface of TTL 1 port with three connection methods HAC-UEN transceivers provide 1 port with three connection ports: a UART interface of TTL 1 port with three connection methods HAC-UEN transceivers provide 1 port with three connection ports: a UART interface of TTL