Doodle Labs Pte Ltd DLM168N Manuale Utente
802.11ac, VHT40, 3 Streams
MCS8
256 QAM
405
23.99
-68
802.11ac, VHT40, 3 Streams
MCS9
256 QAM
429
23.99
-66
5 GHz (80 MHz Channel)
802.11ac, VHT80, 3 Streams
MCS0
BPSK
76
23.69
-87
802.11ac, VHT80, 3 Streams
MCS2
QPSK
223
23.69
-81
802.11ac, VHT80, 3 Streams
MCS4
16 QAM
404
23.69
-72
802.11ac, VHT80, 3 Streams
MCS7
64 QAM
622
23.69
-66
802.11ac, VHT80, 3 Streams
MCS8
256 QAM
686
23.69
-64
802.11ac, VHT80, 3 Streams
MCS9
256 QAM
789
23.69
-62
2.4 GHz (20 MHz Channel)
802.11b, Single Stream, STBC
1 Mbps
CCK
0.8
26.43
-100
802.11g, Single Stream, STBC
6 Mbps
BPSK
5.5
26.07
-98
802.11g, Single Stream, STBC
24 Mbps
16 QAM
18
26.07
-90
802.11g, Single Stream, STBC
36 Mbps
16 QAM
24
26.07
-87
802.11g, Single Stream, STBC
48 Mbps
64 QAM
31
26.07
-84
802.11g, Single Stream, STBC
54 Mbps
64 QAM
32
26.07
-82
802.11n, HT20, 3 Streams
MCS16
BPSK
18
26.26
-92
802.11n, HT20, 3 Streams
MCS18
QPSK
54
26.26
-86
802.11n, HT20, 3 Streams
MCS20
16QAM
108
26.26
-79
802.11n, HT20, 3 Streams
MCS22
64 QAM
162
26.26
-75
802.11n, HT20, 3 Streams
MCS23
64QAM
189
26.26
-74
2.4 GHz (40 MHz Channel)
802.11n, HT40, 3 Streams
MCS16
BPSK
36
25.87
-87
802.11n, HT40, 3 Streams
MCS18
QPSK
108
25.87
-80
802.11n, HT40, 3 Streams
MCS20
16QAM
216
25.87
-74
802.11n, HT40, 3 Streams
MCS22
64 QAM
470
25.87
-70
802.11n, HT40, 3 Streams
MCS23
64QAM
486
25.87
-68
* It is advantageous to use the smallest Channel Bandwidth that can support the Throughput requirements. Smaller
Bandwidths provide more channels to choose and help avoid interference issues. The system’s SNR is higher at smaller
Channel Bandwidths and Range is longer.
Bandwidths provide more channels to choose and help avoid interference issues. The system’s SNR is higher at smaller
Channel Bandwidths and Range is longer.
** Throughput of a wireless link depends on many environmental parameters. Here the bench measurement results are shown
to give an indication of the real life performance of Doodle Labs modules. These results are lower than the theoretical values
published in most of the literature. They do not include distance related derating.
to give an indication of the real life performance of Doodle Labs modules. These results are lower than the theoretical values
published in most of the literature. They do not include distance related derating.
Antenna Signal Strength
-50 to -90 dBm (Recommended), Absolute Maximum=+12 dBm
Antenna port isolation for
concurrent operation
concurrent operation
Up to +10 dBm signal strength for 5 GHz signal without degrading 2.4 GHz operation
Up to +5 dBm signal strength for 2.4 GHz signal without degrading 5.x GHz operation
Up to +5 dBm signal strength for 2.4 GHz signal without degrading 5.x GHz operation
Integrated Antenna Port
Protection
Protection
>12 KV (Human Body Model) for Outdoor and Rugged models (ACO/ACM-DB-3 and
NO/NM-DB-3)
NO/NM-DB-3)
Receiver LNA Gain
>12 dB
Receiver Adjacent Channel
Rejection (ACR)
Rejection (ACR)
>28 dB @6 Mbps, 13 dB @54 Mbps, 3 dB @ VHT80, MCS9
Receiver Next to Adjacent
Channel Rejection (ALCR)
Channel Rejection (ALCR)
>40 dB
Receive chain Noise Figure
+5 dB
Transmitter Adjacent Channel
Leakage power Ratio (ACLR)
Leakage power Ratio (ACLR)
Min 45 dB (Fc ± ChBW)
Transmitter Spurious Emission
-40 dBc (Minimum)