HAC-HN24 data radios use the BNC type’s antenna housing. When choosing the antenna, the customer must notice the compatibility of the 50 HAC-HN24 data radios use the BNC type’s antenna housing. When choosing the antenna, the customer must notice the compatibility of the 50 HAC-HN24 data radios use the BNC type’s antenna housing. When choosing the antenna, the customer must notice the compatibility of the 50 HAC-HN24 data radios use the BNC type’s antenna housing. When choosing the antenna, the customer must notice the compatibility of the 50 HAC-HN24 data radios use the BNC type’s antenna housing. When choosing the antenna, the customer must notice the compatibility of the 50 impedance matching so that the antenna can support the transmission power of 5W. The regular small antenna can’t take so much power. impedance matching so that the antenna can support the transmission power of 5W. The regular small antenna can’t take so much power.

impedance matching so that the antenna can support the transmission power of 5W. The regular small antenna can’t take so much power. impedance matching so that the antenna can support the transmission power of 5W. The regular small antenna can’t take so much power. impedance matching so that the antenna can support the transmission power of 5W. The regular small antenna can’t take so much power. Application of HAC-HN24 networking Application of HAC-HN24 networking

Application of HAC-HN24 networking Application of HAC-HN24 networking Application of HAC-HN24 networking The communication channel of HAC-HN24 is semi duplex, which is most suitable for the communication mode of point to multi-point. Under this mode, one master station must be set, and all of the rest are slave stations. A unique address is given to each station. The coordination of communication is controlled by master station that uses data frames containing address code to transmit data or command. Slave station will receive all of the data and command and compare the received address code with local address code. If they are different, the data will be deserted without any response. If those address codes are the same, it means the data is sent to the local. Slave station will make different responses according to the transmitted data or command and send back the data of response. All these jobs must be performed by upper protocol, and it is assured that there is only one transmitter-receiver in the state of transmission in the communication network at any instant moment so as to avoid the cross-interference. HAC-HN24 can also be used for point-to-point communication with easier operation. For the programming of serial port, all you have to do is to remember that its communication mode is semi duplex while always observing the time sequence of come-and-go for receiving and transmitting. The communication channel of HAC-HN24 is semi duplex, which is most suitable for the communication mode of point to multi-point. Under this mode, one master station must be set, and all of the rest are slave stations. A unique address is given to each station. The coordination of communication is controlled by master station that uses data frames containing address code to transmit data or command. Slave station will receive all of the data and command and compare the received address code with local address code. If they are different, the data will be deserted without any response. If those address codes are the same, it means the data is sent to the local. Slave station will make different responses according to the transmitted data or command and send back the data of response. All these jobs must be performed by upper protocol, and it is assured that there is only one transmitter-receiver in the state of transmission in the communication network at any instant moment so as to avoid the cross-interference. HAC-HN24 can also be used for point-to-point communication with easier operation. For the programming of serial port, all you have to do is to remember that its communication mode is semi duplex while always observing the time sequence of come-and-go for receiving and transmitting.

The communication channel of HAC-HN24 is semi duplex, which is most suitable for the communication mode of point to multi-point. Under this mode, one master station must be set, and all of the rest are slave stations. A unique address is given to each station. The coordination of communication is controlled by master station that uses data frames containing address code to transmit data or command. Slave station will receive all of the data and command and compare the received address code with local address code. If they are different, the data will be deserted without any response. If those address codes are the same, it means the data is sent to the local. Slave station will make different responses according to the transmitted data or command and send back the data of response. All these jobs must be performed by upper protocol, and it is assured that there is only one transmitter-receiver in the state of transmission in the communication network at any instant moment so as to avoid the cross-interference. HAC-HN24 can also be used for point-to-point communication with easier operation. For the programming of serial port, all you have to do is to remember that its communication mode is semi duplex while always observing the time sequence of come-and-go for receiving and transmitting. The communication channel of HAC-HN24 is semi duplex, which is most suitable for the communication mode of point to multi-point. Under this mode, one master station must be set, and all of the rest are slave stations. A unique address is given to each station. The coordination of communication is controlled by master station that uses data frames containing address code to transmit data or command. Slave station will receive all of the data and command and compare the received address code with local address code. If they are different, the data will be deserted without any response. If those address codes are the same, it means the data is sent to the local. Slave station will make different responses according to the transmitted data or command and send back the data of response. All these jobs must be performed by upper protocol, and it is assured that there is only one transmitter-receiver in the state of transmission in the communication network at any instant moment so as to avoid the cross-interference. HAC-HN24 can also be used for point-to-point communication with easier operation. For the programming of serial port, all you have to do is to remember that its communication mode is semi duplex while always observing the time sequence of come-and-go for receiving and transmitting. The communication channel of HAC-HN24 is semi duplex, which is most suitable for the communication mode of point to multi-point. Under this mode, one master station must be set, and all of the rest are slave stations. A unique address is given to each station. The coordination of communication is controlled by master station that uses data frames containing address code to transmit data or command. Slave station will receive all of the data and command and compare the received address code with local address code. If they are different, the data will be deserted without any response. If those address codes are the same, it means the data is sent to the local. Slave station will make different responses according to the transmitted data or command and send back the data of response. All these jobs must be performed by upper protocol, and it is assured that there is only one transmitter-receiver in the state of transmission in the communication network at any instant moment so as to avoid the cross-interference. HAC-HN24 can also be used for point-to-point communication with easier operation. For the programming of serial port, all you have to do is to remember that its communication mode is semi duplex while always observing the time sequence of come-and-go for receiving and transmitting. Technical specification of HAC-HN24 Technical specification of HAC-HN24

Technical specification of HAC-HN24 Technical specification of HAC-HN24 Technical specification of HAC-HN24 Modulation mode: GFSK Working frequency: 829.00~834.90MHz ( Modulation mode: GFSK Working frequency: 829.00~834.90MHz (
Modulation mode: GFSK Working frequency: 829.00~834.90MHz ( Modulation mode: GFSK Working frequency: 829.00~834.90MHz ( Modulation mode: GFSK Working frequency: 829.00~834.90MHz ( Customization for Customization for Customization for Customization for Customization for 900MHz carrier frequency, the type is HN96/915) Transmission power: 37dBm ( 900MHz carrier frequency, the type is HN96/915) Transmission power: 37dBm ( 900MHz carrier frequency, the type is HN96/915) Transmission power: 37dBm ( 900MHz carrier frequency, the type is HN96/915) Transmission power: 37dBm ( 900MHz carrier frequency, the type is HN96/915) Transmission power: 37dBm ( ~80 ~80 ~80 ~80 ~80 5W 5W 5W 5W 5W ) Receiving sensitivity: -118dBm Working temperature: -35 ) Receiving sensitivity: -118dBm Working temperature: -35 ) Receiving sensitivity: -118dBm Working temperature: -35 ) Receiving sensitivity: -118dBm Working temperature: -35 ) Receiving sensitivity: -118dBm Working temperature: -35 (industry level)