Alcatel-Lucent
OmniAccess Wireless Access Points
OAW-AP60, OAW-AP61, OAW-AP70
The Alcatel-Lucent OmniAccess family of next generation,
multi-purpose access points (APs)
is designed to meet the needs of any enterprise wireless LAN
(WLAN) deployment.
The Alcatel-Lucent OmniAccess APs include single and dual-radio
802.11a/b/g models with
a variety of fixed and detachable antenna options.
All Alcatel-Lucent OmniAccess APs function as “thin” APs.
Upper layer media access control (MAC)
processing functions such as encryption and authentication are
integrated into Alcatel-Lucent
OmniAccess WLAN switches, making Alcatel OmniAccess APs cost-effective
and simple to
deploy and manage. Alcatel OmniAccess APs can simultaneously
service wireless users and
act as wireless monitoring devices. This eliminates the need
for a separate overlay of RF
sensors to troubleshoot and optimize the wireless environment.
Alcatel-Lucent OmniAccess APs work with the Alcatel OmniAccess
6000, OmniAccess 4324,
OmniAccess 4308, and OmniAccess 4304 to provide a high performance,
centrally
managed wireless mobility solution for enterprises. Alcatel OmniAccess
APs automatically
configure themselves across any L2/L3 network using a discovery
protocol, allowing easy
upgrades when new features, capabilities, or standards emerge
and increasing their life
span.
All plenum rated, Alcatel-Lucent OmniAccess APs are small and lightweight
and can be securely
deployed in a variety of convenient locations such as on walls,
cubicles, desktops, and in
the ceiling. Antenna diversity allows for the best possible signal
processing using dual,
omni-directional antennas.
Thin AP Architecture
Alcatel-Lucent OmniAccess Wireless access points (APs) are “thin” APs
that provide 802.11a/b/g
user access, but are not overburdened with processing-intensive
functions such as wireless
user authentication, link layer encryption, VPN termination,
and upper layer MAC services
better suited for a purpose-built processing system.
Moving these functions into a centrally-located Alcatel-Lucent
OmniAccess WLAN system gives
administrators greater control over the entire system including
better scalability, higher
performance, and easier system-wide changes as standards and
security schemes
change. Additional benefits include better support for roaming
and low-latency (sub 5
millisecond) handoffs between APs - making the Alcatel-Lucent
OmniAccess WLAN system
ideal for handling delay-sensitive applications such as voice
over wireless.
Adaptive RF Management (ARM), RF Planning, Dynamic Calibration,
and Advanced Troubleshooting
With previous generations of WLAN technology, AP
deployment was an expensive proposition.
Corporations had to painstakingly undertake
extensive RF planning, complete site surveys, climb
into ceilings to run new cabling, and mount the APs.
In turn, APs were deployed sparingly. Alcatel
-Lucent OmniAccess APs change this deployment model
through Adaptive Radio Management (ARM)
technology that negates the need for detailed RF
planning.
To ease implementation, the Alcatel-Lucent OmniAccess
Wireless system combines online RF planning tools
and ARM for fine-tuning, automated performance
and capacity optimization. The Alcatel-Lucent OmniAccess
RF planning gives administrators the power to
quickly provision APs based on coverage,
performance or resiliency requirements. IT staff can import floor
plans and
automatically determine the placement of APs and air monitors.
Once the network is
deployed, administrators can use ARM to automatically perform
system-wide
calibration, determine the actual propagation characteristics
of RF signals, and set AP
transmit power and channel assignments to desired levels.
In addition, the Alcatel-Lucent OmniAccess Wireless system uniquely
provides automatic
tuning of the mobile environment through sophisticated system
calibration and
distributed, radio resource allocation technologies. ARM and
Alcatel-Lucent OmniAccess APs
constantly scan the ambient radio environment to determine coverage
holes,
interference, and congestion. If discovered, Alcatel-Lucent OmniAccess
APs automatically
change channel assignment or power transmit levels to ensure
optimal operation and
report these changes back to the WLAN switch. In the event of
a failure, the
OmniAccess WLAN system automatically alters adjacent AP settings
to ensure no loss
of WLAN service occurs.
For manual troubleshooting, Alcatel-Lucent OmniAccess APs support
packet capture and
provide wireless RMON capabilities, letting administrators quickly
diagnose and
resolve wireless problems.
Zero Configuration, Plug-and-Play Deployment
Alcatel-Lucent OmniAccess APs are completely plug-and-play, requiring
no manual
configuration. Alcatel-Lucent OmniAccess APs can be attached
to any existing Ethernet
switch or IP router and across any subnet boundary. Once connected,
the APs selfconfigure
by automatically building a secure IP (GRE or IPSec) tunnel to
the Alcatel-Lucent
OmniAccess WLAN switch. The WLAN switch automatically configures
each
OmniAccess AP based on the policies and configurations set by
the administrator.
This automation dramatically simplifies operation and eliminates
the need for
reconfiguring the existing network.
Unparalleled Security
Acting as an air monitor, the Alcatel-Lucent OmniAccess APs deliver
100 Mbps of intrusion
analysis and relays alerts back to the OmniAccess WLAN switch.
Alcatel-Lucent
OmniAccess APs detect and thwart rogue APs and wireless intrusions
such as DoS
and man-in-the-middle attacks.
Since the OmniAccess WLAN switch manages Alcatel-Lucent’s
OmniAccess APs, no critical
configuration information – such as passwords, encryption
keys, or digital certificates
– is stored on the APs. If APs are lost or stolen, no sensitive
information can be
obtained.
Conventional WLAN systems decrypt wireless traffic at the AP
and store electronic
keys derived from the requisite exchanges performed between the
client and the
authentication server of each AP. Local storage of this information
poses serious
security risks for large corporations if an access point is lost
or stolen, or if a fake AP
or man-in-the-middle attack is launched.
Secure Remote Office Deployment
Alcatel-Lucent OmniAccess APs can be securely deployed in a remote
office letting network
managers easily extend their corporate 802.1X framework across
the Internet.
Alcatel -Lucent OmniAccess APs use the industry standard IPSec
protocol to create secure
tunnels that connect APs to a central OmniAccess WLAN switch.
Tunneling traffic
inside IPSec prevents an attacker from intercepting messages
between the switch and
AP, allows APs to be deployed across an un-trusted network, and
enables AP to be
deployed with a network address translation (NAT) device between
the AP and
switch. Remote office security policies are centrally defined
and enforced. In addition, like all Alcatel-Lucent OmniAccess APs,
secure remote APs simply appear as another
AP on the system and have the same features and functions, which
are centrally
managed by Alcatel-Lucent OmniAccess WLAN switches.
Advanced Wireless Capabilities
The Alcatel-Lucent OmniAccess WLAN system supports a host of
advanced functionality to
enable latency-sensitive applications. For example, Alcatel-Lucent
OmniAccess APs work in
conjunction with the WLAN switches to support voice-aware scanning.
When a voice
session is detected, this feature ensures that the voice call
is given priority service.
The Alcatel-Lucent OmniAccess WLAN system offers many other
unique capabilities for
optimizing the wireless environment such as setting user thresholds
per AP, defining
and enforcing bandwidth contracts per user or user group, and
the ability to broadcast
up to eight discrete SSIDs per radio. Granular controls over
the APs let administrators
enable AP and client DoS protection, set channel scan times and
frequencies and
control beacon periods, RTS thresholds, SSID availability, DTIM
periods, and maximum
client levels.
Alcatel-Lucent OmniAccess AP60 and AP61
The Alcatel-Lucent OmniAccess AP60 and AP61 (OAW-AP60 and OAW-AP61)
are single
radio, 802.11a or b/g access points (APs) designed for dense
wireless deployments.
The Alcatel-Lucent OAW-AP60 and OAW-AP61 deliver superior capacity,
performance, and
coverage.
Controlled by Alcatel-Lucent OmniAccess WLAN switches, the software-programmable
OAWAP60
and OAW-AP61 are able to act as wireless access devices, RF monitors,
or both
simultaneously. The OAW-AP60 and OAW-AP61 eliminate the primary
obstacle to
dense deployments—the high cost of installing and managing
APs in the ceiling. The
OAW-AP60 and OAW-AP61 can be connected to existing network ports
and wall or
desk mounted. With significantly lower cost-to-deploy APs, more
companies can
implement a performance-based enterprise WLAN.
• Supports 802.11a or b/g
• Two RP-SMA connectors for support of a wide variety of
detachable antennas
(OAW-AP60)
• Two integral tri-band omni-directional high-gain antennas
with 90-degree
movement (OAW- AP61)
• 802.3af-compliant power over Ethernet (PoE)
• Configurable as AP, air monitor, or both simultaneously
• Plenum rated
• Kensington lock interface
• Antenna diversity
Alcatel-Lucent OmniAccess AP70
The Alcatel-Lucent OmniAccess AP70 (OAW-AP70) is a dual-radio
access point that
provides concurrent operation of 802.11a and 802.11b/g services.
The OAWAP70
is a multi-purpose device that can function both as an access
point and as an
RF monitor – independently or concurrently – across
the 2.4 GHz and 5 GHz
spectrums. Ideally suited for workspace deployment, the OAW-AP70
can be securely
wall or desk-mounted.
• Concurrent support for 802.11a and 802.11b/g services
• Two integral omni-directional high-gain antennas with
180-degree rotation
• Four RP-SMA connectors (2 x 2.4 GHz, 2 x 5 GHz) for support
of a wide
variety of detachable antennas
• Additional USB port for future-proofed expandability and
flexible service
expansion
• 802.3af compliant power over Ethernet (PoE)
• Configurable as AP, RF monitor or both simultaneously
• Plenum rated
• Kensington lock interface
OAW-AP60 External Antenna Interfaces
Dual, diversity supporting reverse polarity SMA
(RP-SMA) detachable antenna interfaces
suitable for single or tri-band detachable
antennas of various pattern types and gains. |
OAW-AP60 Physical
Height: 6.26 in. (159 mm)
Width: 3.90 in. (99 mm)
Depth: 1.22 in. (31 mm)
Weight: 12.2 oz. (198 g) |
OAW-AP61 Integral Antenna
An integral, diversity-supporting dual, tri-band
omni-directional high-gain antenna with 90º
degrees movement.
OAW-AP61 Integral antenna gain
• 2.4-2.5 GHz: 2.8dBi
• 5.150-5.350 GHz: 3.9dBi
• 5.6 GHz: 4 dBi |
OAW-AP61 Physical
Height: 8.50 in. (216 mm)
Width: 3.90 in. (99 mm)
Depth: 1.22 in. (31 mm)
Weight: 13.6 oz. (255 g) |
OAW-AP70 Integral Antenna
An integral, diversity-supporting dual, tri-band
omni-directional high-gain antenna with 180º
degrees movement
OAW-AP70 Integral antenna gain
- 2.4-2.5 GHz: 4.46 dBi
- 5.150 GHz: 7.21 dBi
- 5.350 GHz: 6.49 dBi
- 5.850 GHz: 5.23 dBi |
Radio Specifications- 802.11g
• Frequency bands
- 2.412 ~ 2.462 GHz (USA, Canada)
- 2.412 ~ 2.472 GHz (ETSI)
- 2.412 ~ 2.484 GHz (Japan)
• Radio technology - OFDM
• Modulation type – CCK, BPSK, QPSK, 16-
QAM, 64-QAM
• Transmit power – configurable by system
administrator
• MAC – CSMA/CA with ACK
• Operating channels:
- US and Canada: 11
- ETSI: 13
- Japan: 14
• Data rates: 6, 9, 12, 18, 24, 36, 48, 54 Mbps
per channel |
OAW-AP70 External Antenna Interfaces
Quad (2 x 2.4GHz and 2 x 5GHz), diversity
supporting reverse polarity SMA (RP-SMA)
antenna interfaces suitable for a wide array of
detachable antennas of various pattern types
and gains. |
OAW-AP70 Physical
Height (antenna retracted): 6.57 in. (167 mm)
Height (antenna extended): 11.54 in. (293 mm)
Width: 7.48 in. (190 mm)
Depth: 1.18 in. (30 mm)
Weight: 18 oz. (510 g) |
Radio Specifications- 802.11a
• Frequency bands
- 5.150 ~ 5.250 GHz (lower band): 4
channels (for OAW-AP61 and OAW-AP70
only)
- 5.250 ~ 5.350 GHz (middle band): 4
channels
- 5.500 ~ 5.700 GHz (ETSI band): 11
channels (for OAW-AP70 only)
- 5.725 ~ 5.825 GHz (higher band): 4
channels
• Radio technology: orthogonal frequency
division multiplexing (OFDM)
• Modulation type - BPSK, QPSK, 16-QAM, 64-
QAM
• Transmit power – configurable by system
administrator/professional installer
• MAC – CSMA/CA with ACK
• Operating channels:
- US and Canada: 8 external antenna / 12
internal antenna
- ETSI: up to19 for OAW-AP70, 13 for OAWAP60
and AP61
- Japan: 4 for OAW-AP70, 5 for OAW-AP61
(unavailable on OAW-AP60)
• Data rates: 6,9, 12, 18, 24, 36, 48, 54 Mbps
per channel |
Radio Specifications- 802.11b
• Frequency band
- 2.4 ~ 2.483 GHz (US, Canada and ETSI)
- 2.4 ~ 2.497 GHz (Japan)
• Radio technology – direct sequence spread
spectrum (DSSS)
• Modulation type - CCK, BPSK, QPSK
• Transmit power – configurable by system
administrator
• MAC – CSMA/CA with ACK
• Operating channels:
- US and Canada: 11
- ETSI: 13
- Japan: 14 (13 for OAW-AP60)
• Data rates: 1, 2, 5.5, 11 Mbps per channel |
OAW-AP60 and AP61 Electrical
Interfaces
• 1 x 10/100BaseTX auto-sensing Ethernet
RJ-45
interface
- Auto-sensing MDI/MDX
- Serial and power over Ethernet - 48V DC /
200mA power over Ethernet (802.3af
compliant)
• 1 x 5V DC power interface |
Mechanical Interfaces
• Standard Kensington MicroSaver
security cable
interface (not supplied)
• Optional wall and ceiling mount kit interface |
OAW-AP70 Power Requirements
• External AC power or POE
• 5V DC / 3A supplied externally via optional
country specific AC adapter kits
• 48V DC / 250mA power over Ethernet (802.3af
compliant)
Environmental
• Temperature
- Operating: 0 to 50º C (32 to 122º F)
- Storage: 0 to 70º C (32 to 158º F)
• Humidity 5% to 95% (non-condensing) |
Standards
• Ethernet IEEE 802.3 / IEEE 802.3u
• Power over Ethernet IEEE 802.3af
• Wireless IEEE 802.11a/b/g
• USB 2.0 (OAW-AP70 only)
Safety (OAW-AP60 and AP61)
• CSA/NTRL (CSA 22.2 No. 950 and UL1950)
• EN60950 (TÜV/GS), IEC60950 (CB) |
Safety (OAW-AP70)
• UL Listed (UL60950)
• UL Listed (Canadian Electrical Code/CSA 22.2
No. 60950)
• EN60950 / IEC60950
• National Electrical Code Section 300-22(C)
• Canadian Electrical Code, Part 1, CSA C22.1
Sections 2-128, 12-010(3), and 12-100
• UL2043 plenum rating |
Electromagnetic Compliance
• FCC Part 15 Class B – OAW-AP70
only
• FCC Part 15 Class A – OAW-AP60 and AP61
• FCC Part 15 Class C 15.207/15.247
• FCC Part 15 Class E 15.407
• ICES- 003 Class A
• RSS 210 (CAN)
• VCCI Class A
• EN 61000-3, EN 61000-4-2, EN 61000-4-3,
EN 61000-4-4
• EN 61000-4-5, EN 61000-4-6, EN 61000-4-8,
EN 61000-4-11
• 73/23/EEC and 89/336/EEC
• EN 55022, EN55024 (89/336/EEC)
• ETS 300 328 (89/336/EEC), ETS 301 489
(89/336/EEC)
• AS/NZS 3548 Class A
• RFS 29 (NZ) (OAW-AP70 only) |
OAW-AP70
Electrical Interfaces
• 2 x 10/100BaseTX RJ-45 auto-sensing Ethernet
interfaces:
(Port 0)
- Auto-sensing MDI/MDX
- PoE 48V DC / 250mA power over Ethernet
(802.3af compliant)
- Serial over Ethernet
(Port 1)
- Auto-sensing MDX
- PoE 48V DC / 250mA power over Ethernet
(802.3af compliant)
• Redundant Ethernet data link and power over
Ethernet
• USB ver2.0 interface
• 1 x 5V DC power interface |
Visual Indicators (LEDs)
• (Ready) Power on/off
• (Ethernet) link status / activity
• (Radio mode) 802.11a and b/g AP /air
monitor mode
OAW-AP60 and AP61 Power
Requirements
• External AC power or POE
• 5V DC / 2A supplied externally via optional
country specific AC adapter kits
• 48V DC / 200mA power over Ethernet
(802.3af compliant) |
