of each package should be between 60~100B. We also recommend user to resent the wrong information using Automatic Error Request Equipment (ARQ). of each package should be between 60~100B. We also recommend user to resent the wrong information using Automatic Error Request Equipment (ARQ). of each package should be between 60~100B. We also recommend user to resent the wrong information using Automatic Error Request Equipment (ARQ). of each package should be between 60~100B. We also recommend user to resent the wrong information using Automatic Error Request Equipment (ARQ). of each package should be between 60~100B. We also recommend user to resent the wrong information using Automatic Error Request Equipment (ARQ). The analyzing as below: The analyzing as below: The analyzing as below: The analyzing as below: The analyzing as below: What if the actual transmission BER (Bit Error Rate) is 10 What if the actual transmission BER (Bit Error Rate) is 10
What if the actual transmission BER (Bit Error Rate) is 10 What if the actual transmission BER (Bit Error Rate) is 10 What if the actual transmission BER (Bit Error Rate) is 10 -4 -4 -4 -4 -4 , 1 packet with 1KB data, which is about 10-thousand bits, is sent, theoretically, at least 1 bit will be received wrongly, then the 1KB information will never be received correctly. But if we package the data into 10 packets with 100B for each, when all 10 packets are sent, there will be only 1 packet wrong according to this probability. After that, resend this wrong packet using ARQ mode. So by resending one more packet and the efficiency rate is reduced 10%, all data will be absolutely received correctly. , 1 packet with 1KB data, which is about 10-thousand bits, is sent, theoretically, at least 1 bit will be received wrongly, then the 1KB information will never be received correctly. But if we package the data into 10 packets with 100B for each, when all 10 packets are sent, there will be only 1 packet wrong according to this probability. After that, resend this wrong packet using ARQ mode. So by resending one more packet and the efficiency rate is reduced 10%, all data will be absolutely received correctly. , 1 packet with 1KB data, which is about 10-thousand bits, is sent, theoretically, at least 1 bit will be received wrongly, then the 1KB information will never be received correctly. But if we package the data into 10 packets with 100B for each, when all 10 packets are sent, there will be only 1 packet wrong according to this probability. After that, resend this wrong packet using ARQ mode. So by resending one more packet and the efficiency rate is reduced 10%, all data will be absolutely received correctly. , 1 packet with 1KB data, which is about 10-thousand bits, is sent, theoretically, at least 1 bit will be received wrongly, then the 1KB information will never be received correctly. But if we package the data into 10 packets with 100B for each, when all 10 packets are sent, there will be only 1 packet wrong according to this probability. After that, resend this wrong packet using ARQ mode. So by resending one more packet and the efficiency rate is reduced 10%, all data will be absolutely received correctly. , 1 packet with 1KB data, which is about 10-thousand bits, is sent, theoretically, at least 1 bit will be received wrongly, then the 1KB information will never be received correctly. But if we package the data into 10 packets with 100B for each, when all 10 packets are sent, there will be only 1 packet wrong according to this probability. After that, resend this wrong packet using ARQ mode. So by resending one more packet and the efficiency rate is reduced 10%, all data will be absolutely received correctly. f. Since a redundancy code is added for automatic correction in wireless transmission process, the actual RF transmission baud rate is faster than RF efficient baud rate. So the actual RF efficient baud rate is mostly ignored. 10. f. Since a redundancy code is added for automatic correction in wireless transmission process, the actual RF transmission baud rate is faster than RF efficient baud rate. So the actual RF efficient baud rate is mostly ignored. 10. f. Since a redundancy code is added for automatic correction in wireless transmission process, the actual RF transmission baud rate is faster than RF efficient baud rate. So the actual RF efficient baud rate is mostly ignored. 10. f. Since a redundancy code is added for automatic correction in wireless transmission process, the actual RF transmission baud rate is faster than RF efficient baud rate. So the actual RF efficient baud rate is mostly ignored. 10. f. Since a redundancy code is added for automatic correction in wireless transmission process, the actual RF transmission baud rate is faster than RF efficient baud rate. So the actual RF efficient baud rate is mostly ignored. 10. Dimension diagram (Unit: mm): Dimension diagram (Unit: mm): Dimension diagram (Unit: mm): Dimension diagram (Unit: mm): Dimension diagram (Unit: mm): The dimension diagram below is the factory set default of HAC-UEM transceiver. Other required smaller sizes and different shapes can also be provided. The dimension diagram below is the factory set default of HAC-UEM transceiver. Other required smaller sizes and different shapes can also be provided.
The dimension diagram below is the factory set default of HAC-UEM transceiver. Other required smaller sizes and different shapes can also be provided. The dimension diagram below is the factory set default of HAC-UEM transceiver. Other required smaller sizes and different shapes can also be provided. The dimension diagram below is the factory set default of HAC-UEM transceiver. Other required smaller sizes and different shapes can also be provided.