Trilliant Networks 5G1100 Wireless Mesh WAN Backhaul Node User Manual DNMA 83

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Document ID	1718761
Application ID	OqLr+0Bw1ly1iU0X1aY1jA==
Document Description	Manual 2
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Document Type	User Manual
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Filesize	62.96kB (787002 bits)
Date Submitted	2012-06-08 00:00:00
Date Available	2012-06-08 00:00:00
Creation Date	2006-09-19 14:13:22
Producing Software	Adobe PDF Library 6.0
Document Lastmod	2011-10-19 09:41:49
Document Title	DNMA-83
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802.11n a/b/g wifi 3x3 mini-PCI module, MB82/AR9160+AR9106
Model: DNMA-83
DNMA-83 is a 802.11n a/b/g wifi 3x3 mini-PCI module designed specifically to
enable high-performance 3x3 MIMO access point (AP) and router solutions for
dual-band (2.4/5GHz) applications that demand robust link quality and maximum
throughput and range. Setting new standards in throughput, range, reliability, and
power consumption, DNMA-83 delivers the ultimate wireless triple play experience
for video, voice, and data transmission in the home, for the business, and on the
road.
Atheros AR9160+AR9106 solution and 3 antennas design supports 2 simultaneous
traffic MIMO streams using up to 3 integrated Tx and Rx for high throughput and
range performance.
Key Features:
▪
▪
▪
▪
▪
▪
▪
▪
▪
▪
▪
▪
Dual band 802.11 a/b/g/n support 3Tx/3Rx to enable data rate up to 300Mbps link rate for 40MHz channel, six
times the throughput of 802.11a and 802.11g.
Same EVM on both light and heavy loading maintain lower packet error to increase channel efficiency.
Heat sink design provides reliable high power RF performance.
Mini-PCI Type IIIA form factor with screw hole is ideal for solid mounting onto motherboard.
Supported by ath9k providing Linux kernel AP/Station/IBSS/Monitor/Mesh/WDS-mode drivers for industrial,
academic, or personal projects at highest flexibility and lowest cost.
Atheros Linux SDK for AP and client-mode sub-license available by project.
802.11n compliance effectively interoperates with other chipsets.
Supports IEEE 802.11a/802.11b/802.11g backward compatibility allowing inter-operability among multiple wifi
networks.
Supports 64/128/152-bit WEP encryption, 802.1x authentication, WPA, and AES-CCM & TKIP encryption enabling
advanced LAN security.
Three Hirose U.FL antenna connectors support MIMO functionality.
Capable to be operated within FCC DFS2 or ETSI/EC DFS mid-5GHz band subjected to the regulatory approval
done with the resided devices.
RoHS compliance meets environment-friendly requirement.
What’s the benefits to use 3x3 2-stream instead of other standard 2x2 2-stream?
DNMA-83 3x3 2-stream outperforms other standard 2x2, 2-stream by better than 40% in the 20-100 ft range at 20MHz
mode and 50% better in the critical 50-80 ft range at 40MHz mode.
Simulations of downlink throughput: 2x2 and 3x3 both with 2 streams
Simulation results for 40MHz mode: 2x2 and 3x3 downlink direction, both with 2 streams
PHY Rate vs. Distance, Typical Home/Small Office
PHY Rate vs. Distance, Typical Home/Small Office
140.0
300
120.0
250
200
PHY Date Rate(Mb/s)
PHY Date Rate(Mb/s)
100.0
80.0
60.0
40.0
100
50
20.0
0.0
150
20
40
60
80
100
120
140
160
180
200
20
40
60
80
100
120
Feet
Feet
2x2 40 MHz Downlink
3x3 40 MHz Downlink
2x2 20 MHz Downlink
3x3 20MHz Downlink
[Unex] - Ver 1.5 20110527
P. 1
140
160
180
200
Hardware Block Diagram
Mechanical Outline
Unit: mm
[Unex] - Ver 1.5 20110527
P. 2
Packing
Packing box: 100 pcs/box
Carton: 5 packing box/carton = 500 pcs/carton
[Unex] - Ver 1.5 20110527
P. 3
Pin Assignment:
Pin Number
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
Pin Name
TIP
RING
8PMJ-3
8PMJ-1
8PMJ-6
8PMJ-2
8PMJ-7
8PMJ-4
8PMJ-8
8PMJ-5
LED1_GRNP
LED2_YELP
LED1_GRNN
LED2_YELN
CHSGND
RESERVED
INTB#
5V
3.3V
INTA#
RESERVED
RESERVED
GROUND
3.3VAUX
CLK
Pin I/O Type
NC
NC
NC
NC
NC
NC
NC
NC
NC
NC
General purpose GPIO pin
General purpose GPIO pin
NC
NC
GROUND
NC
NC
NC
Power
CMOS, Output
NC
NC
GROUND
NC
Input, Weak pull down
RST#
GROUND
3.3V
REQ#
GNT#
3.3V
GROUND
AD[31]
PME#
AD[29]
RESERVED
GROUND
AD[30]
AD[27]
3.3V
AD[25]
AD[28]
RESERVED
AD[26]
C/BE[3]#
AD[24]
AD[23]
IDSEL
GROUND
GROUND
AD[21]
AD[22]
AD[19]
AD[20]
GROUND
Input, Weak pull
GROUND
Power
Output
Input, Weak pull
Power
GROUND
BiDir,, Weak pull
Output
BiDir,, Weak pull
General purpose
GROUND
BiDir,, Weak pull
BiDir,, Weak pull
Power
BiDir,, Weak pull
BiDir,, Weak pull
NC
BiDir,, Weak pull
BiDir,, Weak pull
BiDir,, Weak pull
BiDir,, Weak pull
BiDir,, Weak pull
GROUND
GROUND
BiDir,, Weak pull
BiDir,, Weak pull
BiDir,, Weak pull
BiDir,, Weak pull
GROUND
up
high
down
down
GPIO pin
down
down
down
down
down
up
down
down
down
down
down
down
down
[Unex] - Ver 1.5 20110527
Description
No use
No use
No use
No use
No use
No use
No use
No use
No use
No use
Connect to AR9160 GPIO0
Connect to AR9160 GPIO1
No use
No use
Digital Ground
Reserved
No use
5V, no use
3.3V±5%
PCI bus Interrupt A
Reserved
Reserved
Digital ground
No use
Providing timing for all transactions on the PCI
bus
PCI reset
Digital ground
3.3V±5%
PCI bus request
PCI bus grant
3.3V±5%
Digital ground
PCI address/data bus bit 31
PCI bus power management
PCI address/data bus bit 29
Connect to AR9160 GPIO7
Digital ground
PCI address/data bus bit 30
PCI address/data bus bit 27
3.3V±5%
PCI address/data bus bit 25
PCI address/data bus bit 28
Reserved
PCI address/data bus bit 26
PCI bus commands and byte 3 enables
PCI address/data bus bit 24
PCI address/data bus bit 23
Initialization device select
Digital ground
Digital ground
PCI address/data bus bit 21
PCI address/data bus bit 22
PCI address/data bus bit 19
PCI address/data bus bit 20
Digital ground
P. 4
Pin Assignment:
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
PAR
AD[17]
AD[18]
C/BE[2]#
AD[16]
IRDY#
GROUND
3.3V
FRAME#
CLKRUN#
TRDY#
SERR#
STOP#
GROUND
3.3V
PERR#
DEVSEL#
C/BE[1]#
GROUND
AD[14]
AD[15]
GROUND
AD[13]
AD[12]
AD[11]
AD[10]
GROUND
GROUND
AD[09]
AD[08]
C/BE[0]#
AD[07]
3.3V
3.3V
AD[06]
AD[05]
AD[04]
RESERVED
AD[02]
AD[03]
AD[00]
5V
RESERVED_WIP4
AD[01]
RESERVED_WIP4
GROUND
GROUND
AC_SYNC
M66EN
AC_SDATA_IN
AC_SDATA_OUT
AC_BIT_CLK
AC_CODEC_ID0#
AC_CODEC_ID1#
AC_RESET#
MOD_AUDIO_MON
BiDir, Weak pull up
BiDir,, Weak pull down
BiDir,, Weak pull down
BiDir,, Weak pull up
BiDir,, Weak pull down
BiDir,, Weak pull up
GROUND
Power
BiDir,, Weak pull down
Input, Weak pull up
BiDir,, Weak pull up
BiDir,, Weak pull up
BiDir,, Weak pull up
GROUND
Power
BiDir, Weak pull up
BiDir, Weak pull up
BiDir, Weak pull down
GROUND
BiDir, Weak pull down
BiDir, Weak pull down
GROUND
BiDir, Weak pull down
BiDir, Weak pull down
BiDir, Weak pull down
BiDir, Weak pull down
GROUND
GROUND
BiDir, Weak pull down
BiDir, Weak pull down
BiDir, Weak pull up
BiDir, Weak pull down
Power
Power
BiDir, Weak pull down
BiDir, Weak pull down
BiDir, Weak pull down
General purpose GPIO pin
BiDir, Weak pull down
BiDir, Weak pull down
BiDir, Weak pull down
NC
NC
BiDir, Weak pull down
NC
GROUND
GROUND
NC
Power
NC
NC
NC
NC
NC
NC
NC
[Unex] - Ver 1.5 20110527
PCI bus parity
PCI address/data bus bit 17
PCI address/data bus bit 18
PCI bus commands and byte 2 enables
PCI address/data bus bit 16
PCI initiator ready
Digital ground
3.3V±5%
PCI frame.
Control signal for PCI clock
PCI target ready
PCI system error
PCI cycle stop signal
Digital ground
3.3V±5%
PCI parity error
PCI device select
PCI bus commands and byte 1 enables
Digital ground
PCI address/data bus bit 14
PCI address/data bus bit 15
Digital ground
PCI address/data bus bit 13
PCI address/data bus bit 12
PCI address/data bus bit 11
PCI address/data bus bit 10
Digital ground
Digital ground
PCI address/data bus bit 9
PCI address/data bus bit 8
PCI bus commands and byte 0 enables
PCI address/data bus bit 7
3.3V±5%
3.3V±5%
PCI address/data bus bit 6
PCI address/data bus bit 5
PCI address/data bus bit 4
Connect to AR9160 GPIO6
PCI address/data bus bit 2
PCI address/data bus bit 3
PCI address/data bus bit 0
No use
Reserved
PCI address/data bus bit
Reserved
Digital ground
Digital ground
No use
3.3V±5%
No use
No use
No use
No use
No use
No use
No use
P. 5
Pin Assignment:
112
113
114
115
116
117
118
119
120
121
122
123
124
RESERVED
AUDIO_GND
GROUND
SYS_AUDIO_OUT
SYS_AUDIO_IN
SYS_AUDIO_OUT GND
SYS_AUDIO_IN GND
AUDIO_GND
AUDIO_GND
RESERVED
MPCIACT#
VCC5VA
3.3VAUX
General purpose GPIO pin
GROUND
GROUND
NC
NC
NC
NC
NC
GROUND
NC
NC
NC
NC
Connect to AR9160 GPIO8
Analog ground
Digital ground
No use
No use
No use
No use
No use
Analog ground
Reserved
Mini PCI function active, no support
No use
No use
Specifications:
Main Chipset
Standard Conformance
Frequency Range
Interface
Operation Voltage
Modulation Technique
Data Rate
Operating Channels
Atheros® AR9160, AR9106
802.11a, 802.11b, 802.11g, and 802.11n
▪ USA: 2.400 ~ 2.483GHz, 5.15 ~ 5.35GHz, 5.5 ~ 5.7GHz, 5.725 ~ 5.825GHz
▪ Europe: 2.400 ~ 2.483GHz, 5.15 ~ 5.35GHz, 5.47 ~ 5.725GHz
▪ Japan: 2.400 ~ 2.497GHz, 5.15 ~ 5.351GHz, 5.47 ~ 5.725GHz
▪ China: 2.400 ~ 2.483GHz, 5.725 ~ 5.85GHz
32-bit mini-PCI Type IIIA
3.3V ±5%
▪ DSSS with CCK, DQPSK, DBPSK
▪ OFDM with BPSK, QPSK, 16QAM, 64QAM
▪ 802.11a: 6, 9, 12, 18, 24, 36, 48, 54Mbps
▪ 802.11b: 1, 2, 5.5 and 11Mbps
▪ 802.11g: 6, 9, 12, 18, 24, 36, 48, 54Mbps
▪ 802.11n:
▫ 20MHz channel:
1Nss: 65Mbps @ 800GI, 72.2Mbps @ 400GI (Max.)
2Nss: 130Mbps @ 800GI, 144.4Mbps @ 400GI (Max.)
▫ 40MHz channel:
1Nss: 135Mbps @ 800GI, 150Mbps @ 400GI (Max.)
2Nss: 270Mbps @ 800GI, 300Mbps @ 400GI (Max.)
▪ 802.11a/n▪
▫ USA/Canada: 23 non-overlapping channels
▫ Major Europe Countries: 19 non-overlapping channels
▫ Japan: 19 non-overlapping channels
▫ China: 5 non-overlapping channels
▪ 802.11b/g/n▪
▫ USA/Canada: 11 (1~11)
▫ Major Europe Countries: 13 (1~13)
▫ France: 4 (10~13)
▫ Japan: 14 for 802.11b (1~13 or 14th), 13 for 802.11g (1~13)
▫ China: 13 (1~13)
Power Consumption of
3T3R
Antenna
802.11a
802.11b
802.11g
802.11n(2.4GHz)
802.11n(5GHz)
Avg./Max. (mA)
Avg./Max. (mA)
Avg./Max. (mA)
Avg./Max. (mA)
Avg./Max. (mA)
Continue Tx
833/909
787/862
744/856
803/884
836/910
FTP Tx
514/851
451/679
425/694
419/676
480/800
FTP Rx
427/855
378/681
398/701
408/678
444/800
Standby mode
417/796
379/644
377/646
381/635
418/787
three SMT Hirose U.FL ultra-miniature coaxial antenna connectors
[Unex] - Ver 1.5 20110527
P. 6
Specifications:
Transmit Power Settings
802.11a:
▪ +18dBm
▪ +17dBm
▪ +16dBm
▪ +15dBm
6, 9, 12, 18, 24Mbps
36Mbps
48Mbps
54Mbps
6, 9, 12,18,24Mbps
36Mbps
48Mbps
54Mbps
802.11b:
▪ +19dBm
802.11g:
▪ +18dBm
▪ +18dBm
▪ +17dBm
▪ +16dBm
802.11n 2.4GHz/HT20:
▪ +19dBm @ MCS 0/8
▪ +19dBm @ MCS 1/9
▪ +19dBm @ MCS 2/10
▪ +19dBm @ MCS 3/11
▪ +18dBm @ MCS 4/12
▪ +16dBm @ MCS 5/13
▪ +13dBm @ MCS 6/14
▪ +10dBm @ MCS 7/15
802.11n 2.4GHz/HT40:
▪ +17dBm @ MCS 0/8
▪ +17dBm @ MCS 1/9
▪ +17dBm @ MCS 2/10
▪ +17dBm @ MCS 3/11
▪ +17dBm @ MCS 4/12
▪ +16dBm @ MCS 5/13
▪ +13dBm @ MCS 6/14
▪ +10dBm @ MCS 7/15
802.11n 5GHz/HT20:
▪ +18dBm @ MCS 0/8
▪ +18dBm @ MCS 1/9
▪ +18dBm @ MCS 2/10
▪ +17dBm @ MCS 3/11
▪ +17dBm @ MCS 4/12
▪ +16dBm @ MCS 5/13
▪ +12dBm @ MCS 6/14
▪ +10dBm @ MCS 7/15
802.11n 5GHz/HT40:
▪ +17dBm @ MCS 0/8
▪ +17dBm @ MCS 1/9
▪ +17dBm @ MCS 2/10
▪ +17dBm @ MCS 3/11
▪ +17dBm @ MCS 4/12
▪ +16dBm @ MCS 5/13
▪ +12dBm @ MCS 6/14
▪ +10dBm @ MCS 7/15
Receiver Sensitivity
802.11a
Data Rate
IEEE Spec (1 Rx dBm)
Typical/Maximum (3Rx dBm)
6M
-82
-95/-91
9M
-81
-95/-91
12M
-79
-95/-91
18M
-77
-94/-90
24M
-74
-90/-86
36M
-70
-87/-83
48M
-66
-83/-79
54M
-65
-82/-78
[Unex] - Ver 1.5 20110527
P. 7
Specifications:
Receiver Sensitivity
802.11b
802.11g
802.11a/n
HT20
802.11a/n
HT40
Data Rate
IEEE Spec (1 Rx dBm)
Typical/Maximum (3Rx dBm)
1M
-82
-96/-92
5.5M
-80
-94/-90
11M
-76
-91/-87
6M
-82
-96/-92
9M
-81
-96/-92
12M
-79
-96/-92
18M
-77
-95/-91
24M
-74
-92/-88
36M
-70
-89/-85
48M
-66
-85/-81
54M
-65
-83/-78
MCS0
-82
-95/-91
MCS1
-79
-94/-90
MCS2
-77
-92/-87
MCS3
-74
-88/-84
MCS4
-70
-85/-81
MCS5
-66
-81/-77
MCS6
-65
-80/-76
MCS7
-64
-77/-73
MCS8
-82
-93/-89
MCS9
-79
-90/-86
MCS10
-77
-88/-84
MCS11
-74
-85/-81
MCS12
-70
-82/-78
MCS13
-66
-78/-74
MCS14
-65
-76/-72
MCS15
-64
-75/-71
MCS0
-79
-91/-87
MCS1
-76
-90/-86
MCS2
-74
-88/-84
MCS3
-71
-85/-81
MCS4
-67
-82/-78
MCS5
-63
-79/-75
MCS6
-62
-77/-73
MCS7
-61
-75/-71
MCS8
-79
-90/-86
MCS9
-76
-87/-83
MCS10
-74
-85/-81
MCS11
-71
-82/-78
MCS12
-67
-79/-75
MCS13
-63
-75/-71
MCS14
-62
-73/-69
MCS15
-61
-71/-67
[Unex] - Ver 1.5 20110527
P. 8
Specifications:
Receiver Sensitivity
802.11b/g/n
HT20
802.11b/g/n
HT40
Operation Distance
Frequency Tolerance
MAC Protocol
Security
Data Rate
IEEE Spec (1 Rx dBm)
Typical/Maximum (3Rx dBm)
MCS0
-82
-96/-92
MCS1
-79
-95/-91
MCS2
-77
-93/-89
MCS3
-74
-90/-86
MCS4
-70
-87/-83
MCS5
-66
-83/-79
MCS6
-65
-81/-77
MCS7
-64
-79/-75
MCS8
-82
-95/-91
MCS9
-79
-93/-89
MCS10
-77
-90/-85
MCS11
-74
-87/-83
MCS12
-70
-84/-80
MCS13
-66
-80/-76
MCS14
-65
-78/-74
MCS15
-64
-77/-73
MCS0
-79
-90/-86
MCS1
-76
-90/-86
MCS2
-74
-89/-85
MCS3
-71
-87/-83
MCS4
-67
-84/-80
MCS5
-63
-80/-76
MCS6
-62
-78/-74
MCS7
-61
-75/-70
MCS8
-79
-90/-86
MCS9
-76
-89/-85
MCS10
-74
-87/-83
MCS11
-71
-84/-80
MCS12
-67
-81/-77
MCS13
-63
-76/-72
MCS14
-62
-75/-71
MCS15
-61
-73/-69
Outdoor
Indoor
802.11a
▪ 50m @ 54Mbps
▪ 300m @ 6Mbps
▪ 30m @ 54Mbps
▪ 100m @ 6Mbps
802.11b
▪ 150m @ 11Mbps
▪ 300m @ 1Mbps
▪ 30m @ 11Mbps
▪ 100m @ 1Mbps
802.11g
▪ 50m @ 54Mbps
▪ 300m @ 6Mbps
▪ 30m @ 54Mbps
▪ 100m @ 6Mbps
802.11n
▪ 30m @ 300Mbps
▪ 30m @ 130Mbps
▪ 300m @ 6.5Mbps
▪ 20m @ 300Mbps
▪ 20m @ 130Mbps
▪ 100m @ 6.5Mbps
the transmitted center frequency tolerance shall be +/- 20 ppm max.
CSMA/CA with ACK architecture 32-bit MAC
▪ 64-bit, 128-bit and 152-bit WEP encryption
▪ 802.1x authentication, WPA
▪ AES-CCM & TKIP
Remark: For the system integrator adopting DNMA-83 with resided devices, the security
features are subject to the compile of Atheros Communication
[Unex] - Ver 1.5 20110527
P. 9
Specifications:
Operation System
Supported
Dimension
Operation Temperature
Range
Storage Temperature Range
Operating Humidity
Storage Humidity
Radio & EMC Certificate
Environment-Friendly
Compliance
▪ Linux
▪ Atheros Linux SDK for AP and client-mode sub-license available by project.
59.6 x 50.08 x 1.0mm
0˚C ~ +60˚C
-20˚C ~ +80˚C
15% ~ 95%, non-condensing
max. 95%, non-condensing
FCC Part 15.401 ~ Part 15.407 (5.150 ~ 5.350GHz & 5.725 ~ 5.825GHz), Part 15.247
(5.725 ~ 5.850GHz), FCC Part 15.247 (2.400 ~ 2.4835GHz), FCC Class-B, FCC Part
15.107 & Part 15.109; limited module level approval.
IC RSS210, RSS139-1, ICES-003, limited module level approval.
ETSI, EN301893, EN60950, EN 300328, EN 301489- 1/17, EN 55022, EN 55024
RoHS
Note:
If DNMA-83 used to design 802.11n dual-concurrent 2.4 plus 5GHz access point (AP)/Router, Unex recommends a 50dB
antenna isolation between any two-2.4GHz-and-5GHz antenna or having an external band-path-filtering design to avoid
deteriorating DNMA-83 performance.
Ordering Information:
DNMA-83
802.11n a/b/g wifi 3x3 mini-PCI module, MB82/AR9160+AR9106
Unex Technology Corp.
Sales-a@unex.com.tw
http://www.unex.com.tw
- Durable Bridge to Wireless
[Unex] - Ver 1.5 20110527
P. 10

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