1. Professional Wi-Fi Installation Solutions
Oberon For
HEALTH CARE and CISCO
Professional Wi-Fi Installation Solutions
Bree Murphy, RCDD
National Training, Applications Engineer

2. OBERON Company Overview OBERON and CISCO Partnership
Healthcare and Cisco WiFi Mounting Solutions
AGENDA
OBERON Company Overview
OBERON and CISCO Partnership
WiFi Forecast and Standards Update
Wireless demands in Healthcare
Policies, Standards, Procedures
OBERON Healthcare Product Solutions

3. Oberon Company Overview
Healthcare and Cisco WiFi Mounting Solutions
Oberon Company Overview
Oberon is a family owned business. The world HQ is located in beautiful State College, PA
Products are manufactured and stocked in New Kensington, PA

4. Oberon Company Overview
Healthcare and Cisco WiFi Mounting Solutions
Oberon Company Overview
Oberon is the original designer and manufacturer of WiFi mounting options
Oberon engineers have been designing WiFi infrastructure solutions since 1999
Many of the designs are the result of customer input and suggestions
All products are tested by experienced
Cisco and Oberon engineers
Since 1999, Oberon, Inc. has been providing products and services to integrators and end users of wireless LAN WiFi network products.
We started the company providing Wireless Site Surveys, and quickly realized the need for unique and effective AP mounting options. Many of the designs are the result of customer input and suggestions.
Oberon’s products are designed and tested by an experienced technical staff with extensive wireless networking survey, design, and installation experience. Oberon's products have been tested with most of the industry-leading wireless networking vendor products.

5. Oberon Company Overview
Healthcare and Cisco WiFi Mounting Solutions
Oberon Company Overview
Oberon products are used to support
challenging areas within the Healthcare
market
Simplify future moves, adds and changes
Oberon’s products have helped thousands of Cisco customers
to achieve secure, convenient and aesthetic professional WiFi
Installations.
WiFi is quickly becoming the “second” utility in many verticals.
Oberon's wireless mounting options are used where the RF coverage, infrastructure security, environmental robustness, and aesthetics are paramount in the network design and implementation. With the WiFi standards quickly evolving to faster speeds, and need for more bandwidth, APs upgrades are inevitable. Oberon provides product to simplify removing and replacing APs.

6. Healthcare and Cisco WiFi Mounting Solutions
Oberon and Cisco

7. The only specialized WiFi mounting manufacturer in the
Healthcare and Cisco WiFi Mounting Solutions
The only specialized WiFi mounting manufacturer in the
Cisco Solutions Partner Program
All products are tested by experienced Cisco and Oberon engineers
We are both the Recognized product category leader
Largest variety of solutions for all verticals
We utilize the design and hardware of the Cisco
WAPs to make Installation easy and quick.   
Oberon is a recognized product category leader. We are a Registered Cisco Technology Partner and an Aruba Networks Ecosystem Partner
We are the ONLY specialized manufacture of wireless access point mounting solutions in the Cisco Solutions Partner Program.   

8. Wireless 802.11 Standards Update
Healthcare and Cisco WiFi Mounting Solutions
Wireless Standards Update

9. Access points will need to be physically replaced every 3-5 years
Healthcare and Cisco WiFi Mounting Solutions
Access points will need to be physically
replaced every 3-5 years
Emerging wireless (IEEE __ __) standards
Improvements in signal processing technology (I.E MU-MIMO
versus SU-MIMO)
Improvements in throughput due to added unlicensed spectrum
Emerging capabilities and features in the access point
Notes: ac Wave 1 and Wave 2 now shipping.
802.11ad (WiGig) now at 7Gbps. Predicted to have the capability of 10Gig by 2025.

10. Network PHY and MAC standards are evolving
Healthcare and Cisco WiFi Mounting Solutions
Network PHY and MAC standards are evolving
1 Gb/s (CAT5e) and 10 Gb/s (CAT6A) standards
802.11ac Wave 1 and Wave 2 - Increase in speed and throughput
Link aggregation – more bandwidth, back up capabilities
Cisco M-Gig Switches; NBase-T technology provides speeds over 1Gig
(2.5 Gb/s and 5 Gb/s Ethernet over existing (CAT5e or CAT6) cable plant)
802.3bz task force
TSB recommends Cat 6A, but there is a new NBaseT standard. Cable vendors selling Cat 6a, and chip set manufactures selling switches. We are not selling one way or another, just delivering the information on what is out there.

11. Healthcare and Cisco WiFi Mounting Solutions
802.11ac Wave 2 Enhancements
Notes; showing the additional processing power of Wave 2.

12. WiFi Forecast and Standards Update
Healthcare and Cisco WiFi Mounting Solutions
Wireless Standards – PHY data rate and Throughput
WiFi Forecast and Standards Update
Notes: Logarithmic scale showing the evolution of speeds.

13. WiFi in Healthcare Healthcare and Cisco WiFi Mounting Solutions
Medical telemetry devices monitor patients' vital signs and other health related parameters. One of the example is wireless cardiac monitors. This application is widely used in hospitals, health care facilities and at home. Various wireless medical devices have been developed based on various needs. FCC has established new wireless medical telemetry service in the year 2000.
FCC mentions RF frequency bands used for medical telemetry purpose. Frequency bands MHz, MHz and MHz are commonly used. For details refer Medical Telemetry Bands.
Following RF and Wireless technologies are used for medical telemetry and other applications. • FCC devices(47 CFR Part 15) • WMTS-Wireless Medical Telemetry Service • cellular or mobile telephones • wireless handheld computers and PDAs • wireless local area networks (WLAN a/b/g) • wireless modems for laptop computers • personal area networks technologies such as Bluetooth, UWB and Zigbee • RFID-RF identification

14. WiFi Medical Telemetry is quickly emerging
Healthcare and Cisco WiFi Mounting Solutions
WiFi Medical Telemetry is quickly emerging
(Resource; WiFi Alliance and FCC )
Wireless cardiac monitors implanted or worn
Cell phones, Wireless handheld PDAs
RFID-RF identification
Implanted micro-stimulator
Body sensors used to monitor and control various
patients' functions
Body sensors w/remote monitoring - home
WiFi Alliance; Wi-Fi will play a dominant role in making the digital health vision a reality. The benefits of using wireless technology in wearable devices are numerous, ranging from reduced cable clutter, fewer accessories requiring infection control, increased patient comfort through smaller wearable devices, uninterrupted monitoring outside the hospital, and reduced recovery time by enabling patients to ambulate within the care area and still be monitored. Historically, these benefits only extended to the boundaries of the hospital, but with the digital health ecosystem, those boundaries will be broken down and extended into the patient home. In the ecosystem of digital health, users will be monitored in real-time, anytime and anywhere, through the use of wearable wireless devices.Medical telemetry devices monitor patients' vital signs and other health related parameters. One of the example is wireless cardiac monitors. This application is widely used in hospitals, health care facilities and at home. Various wireless medical devices have been developed based on various needs. FCC has established new wireless medical telemetry service in the year 2000.
The number of Wi-Fi CERTIFIED devices in hospitals is growing significantly as the advantages of networking between devices, applications, clinicians and systems are realized. Wi-Fi communication may be present on a hospital floor in everything from infusion pumps and sensors to PCs, patient monitors, smartphones and wearable wireless devices (WWDs). As hospitals make greater use of electronic medical records (EMRs), more and more devices that interact with these records will find their way onto hospital Wi-Fi networks. For a majority of hospital systems, medical devices are just beginning to transition from proprietary private networks to Wi-Fi networks. As this transition continues and the balance of Wi-Fi devices begins to shift toward an increasing number of devices, system designers and administrators will face new challenges such as network capacity and scalability, device coexistence, mobility and power consumption.
Careful planning, implementation and monitoring of the enterprise Wi-Fi network helps ensure that hospital network administrators address these challenges effectively. Properly designed and maintained Wi-Fi networks offer hospital environments a proven, interoperable and security-protected system for handling a broad range of devices and data transfers.
FCC mentions RF frequency bands used for medical telemetry purpose. Frequency bands MHz, MHz and MHz are commonly used. For details refer Medical Telemetry Bands.
Following RF and Wireless technologies are used for medical telemetry and other applications. • FCC devices(47 CFR Part 15) • WMTS-Wireless Medical Telemetry Service • cellular or mobile telephones • wireless handheld computers and PDAs • wireless local area networks (WLAN a/b/g) • wireless modems for laptop computers • personal area networks technologies such as Bluetooth, UWB and Zigbee • RFID-RF identification
Wireless Medical Devices
Wireless medical devices fall under two major categories viz. short range or long range. Short range technologies transmit data from the patient to a local receiver/monitor. The local receiver may stand alone or connect to a central monitoring station. Long range technologies generally transmit patient data directly to a remote monitoring location.
Available wireless technologies and FCC services to support short range patient monitoring will include following: ➤Inductive implantable medical devices for monitoring and control of cardio activities of the patients. These devices usually operate at 200KHz and covers distances of less than 1 foot. ➤MICS for communication between body implants and nearby controller. These devices operate at MHz and covers about 10 feet. ➤ The devices based on wifi, bluetooth and zigbee are used for implanted or body worn medical devices. These wireless medical devices operates in various frequency bands and covers few hundred feets. ➤The devices based on UWB are used for medical telemetry and imaging. These are low power devices and covers distnaces upto few feets. ➤Implanted microstimulator devices are used as artificial nervous system. This helps to restore mobility to paralyzed limbs. These devices operate in 413 to 457 MHz frequency band and covers distance of few feet. ➤Wireless Personal Area Network of multiple body sensors are used to monitor and control various patients' functions . They operate in MHz band and covers few feets. They are known as medical body area networks(BANs).
Available wireless technologies and FCC services to support long range medical telemetry will include following: ➤WMTS(Wireless Medical Telemetry) uses unlicensed bands to communicate data from body sensors with remote monitoring systems. They operate in MHz frequency band and covers several hundred feets. ➤WiMAX technology provides data rate of 70Mbps with distances of several kms. They operate in 2.5 GHz frequency bands.
Figure mentions various wired and wireless medical devices. National Instruments provides solutions for medical RF signals recording and playback purpose. The solutions include both hardware and software(toolkit) deliverables. They provide RF and Wireless testing equipments for WBAN(Wireless Body Area Network), zigbee, WLAN(11n,11ac,11ad), bluetooth and more.
By this time next year, 60% of the carrier network traffic will be offloaded
to the WiFi Infrastructure

15. WAP Density Demand is Increasing in Hospitals - Critical
Healthcare and Cisco WiFi Mounting Solutions
WAP Density Demand is Increasing in Hospitals - Critical
“High density” Wi-Fi design in hospitals
- Double the amount of APs installed in the room/area
The Healthcare WiFi infrastructure must accommodate many users, much
greater densities and be more robust (BICSI 004)
Tremendous growth: (BICSI -004 Medical Grade Wireless)
- Healthcare apps
- Wireless sensors for health monitoring
- Handheld mobile devices
- Inpatient medical devices
Considerations for Hospital Enterprise Wireless and Consumer Wireless
Cell based offloading to WiFi
BICSI 004 – IT design and best practice for Healthcare facilities.
There has been tremendous growth in healthcare apps, wireless sensors for health monitoring, handheld mobile devices
for clinicians, and inpatient wireless medical devices.. The increase in wireless medical devices, coupled with consumer and
enterprise use of wireless networks in health care, require a reliable and well-engineered wireless network infrastructure with the assurance necessary to support these needs

16. Healthcare WiFi Standards Recommendations, Codes, and Compliances
Healthcare and Cisco WiFi Mounting Solutions
Healthcare WiFi Standards Recommendations,
Codes, and Compliances
The new paradigm for wireless design in healthcare facilities should include a disciplined design approach. The Medical Grade Wireless Utility (MGWU) brings an engineered process based approach to wireless network design and implementation. A health care facility typically has the
characteristics of many building types in a structure, interconnected structures, or a campus of structures. These will vary among facilities, but may include: Process environments (operating rooms, treatment room,s including RF free environments) Hospitality (patient rooms), Laboratories Teaching areas, Public areas Office & administrative
 Retail (e.g., gift shop)
 Parking
Many of these areas are shown, which illustrates the first three floors of a healthcare facility.
The communications needs of each user group in these “mini-facilities” will also vary, leading to a multiplicity of networks (need photo)

17. Wireless Design Guide for the Healthcare Industry
Healthcare and Cisco WiFi Mounting Solutions
BICSI Medical Grade Utility Wireless Standard
Wireless Design Guide for the Healthcare Industry
- Wireless communications is a unique type of “Utility” in hospitals
- MGUW is the implementation of a wireless infrastructure that
doesn’t require costly and disruptive above ceiling change mgmt.
- It is recommended that the wireless environment be characterized
Prior to design and installation of cabling
The new paradigm for wireless design in healthcare facilities should include a disciplined design approach. The Medical Grade Wireless Utility (MGWU) brings an engineered process based approach to wireless network design and implementation. A health care facility typically has the
characteristics of many building types in a structure, interconnected structures, or a campus of structures. These will vary among facilities, but may include: Process environments (operating rooms, treatment room,s including RF free environments) Hospitality (patient rooms), Laboratories Teaching areas, Public areas Office & administrative
 Retail (e.g., gift shop)
 Parking
Many of these areas are shown, which illustrates the first three floors of a healthcare facility.
The communications needs of each user group in these “mini-facilities” will also vary, leading to a multiplicity of networks (need photo)

18. Growth in hospital wireless needs
Healthcare and Cisco WiFi Mounting Solutions
BICSI-004 Medical Grade Utility Wireless Standard
Growth in hospital wireless needs
The increase in wireless medical devices
The increase in consumer and enterprise use of the WiFi network
Requires a reliable and robust WiFi infrastructure
A wireless infrastructure that involves no above ceiling modifications

19. Grades of Hospital Wireless Service
Healthcare and Cisco WiFi Mounting Solutions
BICSI-004 Medical Grade Utility Wireless Standard
Grades of Hospital Wireless Service
Medical Grade – Life Critical
Support clinical devices and apps to collect and share life critical medical info
Enterprise Grade – Mission Critical
Support health devices and apps that inform and direct
Consumer Grade – Inform
The wireless service that supports consumer devices and apps to inform.
All requiring a robust wireless system that is ready for future technologies

20. Implementation of Wireless
Healthcare and Cisco WiFi Mounting Solutions
BICSI-004 Medical Grade Utility Wireless Standard
Implementation of Wireless
Below ceiling installation of WiFi access points is a better alternative to above ceiling
They should be installed in a cabinet flush with or below the ceiling, or wall mounted.
MGUW can help prepare the hospital for the changing healthcare
IT environment and future wireless technologies

21. TIA 1179 – Healthcare Infrastructure Standard
Healthcare and Cisco WiFi Mounting Solutions
TIA 1179 – Healthcare Infrastructure Standard
(Policies and procedures to mitigate Airborne Infectious Disease)
Once ceiling tiles are closed, adding or changing cabling could jeopardize infection control measures
Restrictions on removing ceiling tiles impacts adds, moves and changes
It is recommended that the wireless environment be characterized prior to design and installation of cabling

22. Infectious Control Risk Assessment (ICRA)
Healthcare and Cisco WiFi Mounting Solutions
Infectious Control Risk Assessment (ICRA)
Lifting or removing ceiling tiles requires the installer to:
Use Negative Air Pressure Enclosure (NAPE),
or “tent off” the work area
- Use a HEPA air filter
These require more labor cost

23. HIPPA Compliance – Secure the Endpoints NEC – Plenum rated
Healthcare and Cisco WiFi Mounting Solutions
HIPPA Compliance – Secure the Endpoints
NEC – Plenum rated
Seal off the plenum space with an Oberon
Plenum rated back box

24. Healthcare and Cisco WiFi Mounting Solutions
Oberon Solutions
Solve unique and challenging areas of AP deployments in the Healthcare market
Help simplify Healthcare codes and
compliances
Offer simple and fast migration to new APs
Provide Security, Convenience, Aesthetically appealing solutions with a Professional finish

25. Challenge – Ceiling tile deployments
Healthcare and Cisco WiFi Mounting Solutions
Challenge – Ceiling tile deployments
Airborne Infectious Disease moves through plenum space to patient
area through these gaps
Gap in the ceiling
Hospitals, Airborne Infectious Disease
Mouse-holes and gaps are undesirable because
1) they allow dust, mold and fungus spores to spread. These are known vectors of disease
2) They allow air to “leak” out of the room. In hospitals, there is an effort to create higher air pressure in critical areas, and lower pressure in less critical areas, so that pathogens and their vectors are directed out of critical areas. This leaks make it more difficult to control the flow of air.
And finally 3) the ceilings are typically designed with a 2 or 4 hour burn rating . Poking holes in the ceiling can compromise that burn rating.
These Aps can be mounted more professional…..
Gap in the ceiling
Gap in the ceiling

26. Ceiling Tile Solutions
Healthcare and Cisco WiFi Mounting Solutions
Ceiling Tile Solutions
Access Points mounted in ceiling enclosures permit :
APs to be installed without poking holes in ceiling tiles
Quick installation
Entrance to the access point without lifting ceiling tile
Helps simplify ICRA protocols, and they are plenum rated
Model 1047-LPDOME
Universal Enclosure, Non-metallic dome
By mounting them in ceiling enclosures.

27. Locking Suspended Ceiling Mount
Healthcare and Cisco WiFi Mounting Solutions
Ceiling Tile Solutions
Locking Suspended Ceiling Mount
Model 1064-T
This locking, suspended ceiling tile-like mount is designed to provide a convenient way to secure Cisco wireless access points in the ceiling. Many of the 106X series WAP mounts feature a unique, patented locking mechanism which draws the WAP part way into the mount, exposing only the antenna face of the WAP, for the ultimate in wireless coverage, aesthetics, and physical security. Textured, white powder-coated steel and aluminum construction. Come with a fire stopping grommet for cable installation.
Patented locking mechanism draws the WAP part way into mount, exposing only the antenna face
Provides the ultimate wireless coverage, aesthetics, and physical security
Textured, white powder-coated steel and aluminum construction
The “–T” is for tegular (recessed grid) ceiling tiles

28. Locking Suspended Ceiling Enclosure w/Door
Healthcare and Cisco WiFi Mounting Solutions
Ceiling Tile Solutions
Locking Suspended Ceiling Enclosure w/Door
Model 1075-CCOAP
Locking multimedia ceiling enclosure mounts and secures digital media gateways, WAPs and other components in the ceiling. Once installed, this ceiling enclosure permits controlled access to components without lifting ceiling tiles. Interchangeable retrofit doors permit easy vendor and technology migrations. Steel enclosure fits into a cutout in the ceiling tile.
Shallow back-box (3”) simplifies installation in walls and ceilings
Interchangeable doors to permit technology migrations
Shallow back-box (3”) simplifies installation, and ICRA compliance

29. Recessed Ceiling Mount Kits
Healthcare and Cisco WiFi Mounting Solutions
Ceiling Tile Solutions
Recessed Ceiling Mount Kits
You can use your own tile.
Model 1040-xx
Flush to the ceiling
Trim piece is interchangeable
Quick deployment
Stable, secure, and aesthetic professional appearance
Easy cable installation
So we’ve always had “enclosures” with the doors, they were heavier, and were initially designed for hospitals, but we now have the 1040 series, which is for everyone, airports, banks, schools, universities. Half the price, lighter, and support broader market. As you can see, this is much nicer than clipping on the ceiling.

30. Hard Ceiling Solutions
Healthcare and Cisco WiFi Mounting Solutions
Hard Ceiling Solutions
Before
Simplifies deployment in hard ceilings
Trims can be exchanged with AP upgrades
Has enough room for equipment cord slack
Back box helps simplify ICRA compliance codes
Model 1042-CCOAP-Old constr
Model 1043-CCOAP-New constr
After

31. Hospital Parking Garages
Healthcare and Cisco WiFi Mounting Solutions
Hospital Parking Garages
Model 1020-RAB
Wireless parking ticket machines are emerging
AP’s Need NEMA 4 rated protection
Weather, Temperature, Tampering, Impact resistance

32. Hospital unique solutions Medicine Coolers Psychiatric Wards
Healthcare and Cisco WiFi Mounting Solutions
Hospital unique solutions
Medicine Coolers Psychiatric Wards
Model 1020
Model 1020-RAB
Need NEMA 4 rated protection
Weather, Temperature, Tampering, Impact resistance

33. Hard Wall Options – Right Angle Brackets
Healthcare and Cisco WiFi Mounting Solutions
Hard Wall Options – Right Angle Brackets
For those who want to mount the AP in the preferred horizontal position
Today, patch cord installation into the WAP is becoming a huge conversation, predominantly when mounting WAPs on the wall. The reason behind this, when the WAPs are placed directly over TO or electrical boxes, or perhaps the horizontal is coming in through a hole in the wall, customers must find an easy way to terminate the horizontal cable, along with attaching an equipment cord, maintain the bend radius, and provide enough room for cord slack, while concealing all of this. This is a real tight fit. To make matters more complicated, TSB recommends Cat 6a cable for all wireless installations due to the fast evolving technologies that are requiring higher bandwidth. Well 10gig Cat 6a cords have a larger diameter. With a larger diameter, the allowed bend radius, is smaller. TIA specifies that the patch cord bend radius be only 4x the cables’ diameter. So with slack in patch cords, it is clear that mounting options for the WAPs must have sufficient room for the placement of the patch cord. I just want to note, that many manufactures have a smaller diameter patch cord, which makes it a lot
Easier for WAP connections, however, due to smaller gage size (28awg,) channel links have to be de-rated. That’s a whole another topic, and should be discussed with your cable manufacturer. Some manufactures also have very short patch cords, like 6 to 8”. This will all depend on the cabling manufacturer that your customer uses. Oberon has taken great consideration of these issues, and we can provide solutions that solve this issue.
Model 1011
Model 1006-CCOAP
Model 1012
Wall mounted WAPs are generally mounted directly over the TO, E-box, or raceway
Maintaining proper bend radius, cord slack, and concealing the cable is quickly
becoming priority for aesthetics

34. Hard Wall Options cont – More flush to the wall
Healthcare and Cisco WiFi Mounting Solutions
Hard Wall Options cont – More flush to the wall
Model
Has large enough cut-outs for equipment cords, and cable, preserving bend radius
Can be mounted directly over TO, or electrical box
Has enough room for equipment cord slack

35. Where security is a concern
Healthcare and Cisco WiFi Mounting Solutions
Where security is a concern
Compact, non-metallic enclosure secures and protects WAPs in residence halls, hotels, retail locations and other indoor venues. This rugged ABS plastic enclosure is virtually transparent to wireless signals so WAPs with integrated antennas or small detachable antennas may be protected. The box can be mounted directly over the telecommunication outlet, and cable raceway or conduit can be conveniently terminated.
Model
Model
Wall/Ceiling mount non-metallic lock boxes to physically protect APs
Can mount directly over TO, to raceway, or ceiling conduit

36. Hard Wall/Patient rooms
Healthcare and Cisco WiFi Mounting Solutions
Hard Wall/Patient rooms
Compact wall or ceiling mount box to physically protect WAPs
Transparent to the wireless signal
Can mount directly over TO, to raceway
Deep enough for a biscuit jack, and patch cord
Tamper resistant screws for security
Many compact WAPs fasten to a telecommunications outlet low on the wall, vulnerable to tampering, disconnect, or accidental damage. This compact, non-metallic plastic box protects the WAP and cables connected to it. Deep enough to surface mount WAPs with a biscuit jack, and preserve the patch cord bend radius. The low-profile 1017 is molded from durable ABS plastic, and is transparent to the wireless signal. Box cover has tamper-resistant screws. Comes in white or black.
Model 1017 Non-metallic box
Model 1017 Non-metallic box
Cisco 1810W

37. Open Ceilings Hanging Conduit Where Ceiling/Wall Mount is Not Possible
Healthcare and Cisco WiFi Mounting Solutions
Open Ceilings
Where Ceiling/Wall Mount is Not Possible
Hanging Conduit
Low profile hinged box
Knockouts on 2 sidewalls
Standards compliant termination of cable inside of box
Model 0900-HC

38. Conceal the AP Hard wall or ceiling
Healthcare and Cisco WiFi Mounting Solutions
Conceal the AP
Hard wall or ceiling
Rugged enclosure to resemble a light fixture
Fits most Cisco WAPs
NEMA 4 capability with gasket in the cover
Deep enough for a biscuit jack, and patch cord
Aesthetic and economical, Oberon’s Model 1018 is a rugged enclosure designed to protect most vendors’ wireless access points in many environments.  The 1018 is injection molded  with UV-stabilized polycarbonate, and includes a captured gasket in the cover to provide a NEMA 4 capability for outdoor installations. The screw-on, white polycarbonate cover is virtually transparent to wireless signals. Internal bracket is designed to simplify access point installation.
Model 1018-WH Wall mount Polycarbonate

39. Solutions for Cisco 2800/3800 Series
Healthcare and Cisco WiFi Mounting Solutions
Solutions for Cisco 2800/3800 Series
802.11ac Wave 2 – Feature packed
New form factor- Heavier and larger
Cisco does not recommend the AIR-BRACKET-3
Cisco recommends Oberon in their Deployment guide for
physical installation
Protected, secure, and an aesthetic professional appearance
“If you have this bracket currently installed and are migrating to the newer AP 2800 and AP 3800 series, you may be able to still use the existing tile and leverage the new in-tile mount available from Oberon Wireless (a Cisco partner).”
Cisco released their 3800 WAP, with the Wave 2 standard technology. This is a heavy unit. According to the spec sheet, it weighs 4.6 lbs. Cisco Installation documentation specifies Oberon as the mounting alternative to the AIR-BRACKET-3.
Access Point Physical Hardware and Mounting Options

40. Solutions for Cisco 2800/3800 Series
Healthcare and Cisco WiFi Mounting Solutions
Solutions for Cisco 2800/3800 Series
Before
Recessed Ceiling Mount Kits – Trim Piece
After
Flush to the ceiling
Trim piece is interchangeable
Quick deployment
Stable, secure, and aesthetic professional appearance
Easy cable installation
Cisco just released their 3800 WAP, with the Wave 2 standard technology. This is a heavy unit. According to the spec sheet, it weighs 4.6 lbs. Cisco Installation documentation specifies Oberon as the mounting alternative to the AIR-BRACKET-3.
1) Model 1040-CCOAP3800
(Use your own tile)
2) Model 1044-CCOAP3800
(Replaces the 2x2 tile)

41. Solutions for Cisco 2800/3800 Series
Healthcare and Cisco WiFi Mounting Solutions
Solutions for Cisco 2800/3800 Series
Before
Ceiling Tile Enclosure – Lockable Door
Flush to the ceiling
AP mounts in the door
Interchangeable doors for easy migration
Quick deployment
Stable, secure, and aesthetic professional appearance
Helps satisfy Hospital ICRA compliance
Back box creates a dust barrier
Seals off Plenum space
No holes in the ceiling tile
After
Model 1047-CCOAP3800
(Replaces the 2x2 tile)

42. Solutions for Cisco 2800/3800 Series
Healthcare and Cisco WiFi Mounting Solutions
Solutions for Cisco 2800/3800 Series
Beam Mount/Open Ceilings and Hard Wall
Paintable vanity cover
Paintable vanity cover
Paintable vanity cover
Paintable vanity cover
Model 1006-CCOAP-3800
Model 1006-CCOAP-3800
Model 1008-AP3800-COVER
Model 1006-CCOAP-3800
Model 1006-CCOAP3800