First proposed over six years ago, the now well-established CoaXPress (CXP) camera to computer interface was originally developed by a consortium of Adimec (Eindhoven, The Netherlands), Active Silicon (Iver, England), EqcoLogic (Brussels, Belgium), Components Express Inc (CEI; Woodridge, IL), AVAL DATA (Tokyo, Japan) and NED (Tokyo, Japan).
- Mercury Peripherals Cameras For Windows 7
- Mercury Peripherals Cameras Wireless
- Mercury Peripherals Cameras Wireless
Andrew Wilson, Editor
First proposed over six years ago, the now well-established CoaXPress (CXP) camera to computer interface was originally developed by a consortium of Adimec (Eindhoven, The Netherlands; www.adimec.com), Active Silicon (Iver, England; www.activesilicon.com), EqcoLogic (Brussels, Belgium; www.eqcologic.com), Components Express Inc (CEI; Woodridge, IL; www.componentsexpress.com), AVAL DATA (Tokyo, Japan; www.avaldata.co.jp) and NED (Tokyo, Japan; www.ned-sensor.co.jp).
Awarded the Vision Award at the VISION 2009 trade fair, the standard has now been adopted by over thirty manufacturers of cameras, frame grabbers, and peripheral products. The success of the standard can be attributed to a number of factors.
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As an asymmetric point-to-point serial image transmission standard, the CXP standard is scalable. Using a single coaxial cable, downlink speeds of up to 6.25Gbps per cable can be achieved. With a 20.833Mbps uplink for communications and control, the standard also allows 13W of power to be supplied over each cable in Power-over-CXP mode.
Physical interface
Every CXP design features the EQCO62T20 (camera) or EQCO62R20 (frame grabber) CoaXPress transceiver chipset from EqcoLogic. This driver/equalizer combination forms a bidirectional full duplex communication link over a single coax cable and transports 6.25 Gbps over the downlink channel and 20.833 Mbps over the uplink channel. According to Eqcologic, these devices support up to 58m of RG11 co-axial cable at 6.25 Gbps.
While the EqcoLogic chipset forms the physical layer of the CXP standard, camera and frame grabber vendors employ FPGAs for control, protocol implementation and serialization and deserialization. Although many such manufacturers have designed their own FPGA code for such tasks, intellectual property (IP) to aid development of CXP-based FPGA camera and frame grabber interfaces is also available from companies such as Mercury Systems (Chelmsford, MA; www.mrcy.com), Sensor to Image (Schongau, Germany; www.s2i.org), Kaya Instruments (Haifa, Israel; www.kayainstruments.com) and Demand Creation (Nippa Town, Japan; http://dcreation.jp).
The CoaXPress AXI IP Core from Mercury Systems, for example, supports a single downlink of up to 6.25 Gbps for image transfer and a 20Mbps uplink for communications and control. The Core can be implemented on Altera or Xilinx FPGAs and provides 32-bit interfaces for data and control to other FPGA logic (Figure 1).
| Figure 1: The CoaXPress AXI IP Core from Mercury Computer Systems supports a single downlink of up to 6.25 Gbps for image transfer and a 20Mbps uplink for communications and control. |
Because the standard is scalable, multiple channels can be used to either support multiple cameras or high speed cameras with multiple CXP ports at speeds greater than 6.25Gbps. For example, single camera implementations running at speeds of up to 6.25Gbps may require a single frame grabber with one CXP port. Dual or quad CXP port frame grabbers can support two or four cameras running at this data rate. Alternatively, single high-speed four port cameras running at data rates of up to 25Gbps can be supported with four channel CXP frame grabbers.
Because of the need to offer systems integrators a range of options, frame grabber vendors currently offer products that support one, two or four CXP ports. Active Silicon, for example, offers its Firebird series of CXP PCI Express frame grabbers with one, two and or four CXP ports while companies such as BAP Image Systems (Erlangen, Germany; www.bapimgsys.com), Bitflow (Woburn, MA; www.bitflow.com) and Matrox (Dorval, Quebec, Canada; www.matrox.com) offer boards with one and two CXP ports (Table 1).
Click to Enlarge
In some applications, where multiple, lower speed cameras need to be deployed, a multiplexer can be used to reduce the number of CXP ports required. Because of this, Kaya Instruments has introduced a CoaXPress multiplexer that can simultaneously stream data from up to four CXP camera channels over a single coaxial cable. In operation, the multiplexer handles standard CoaXPress transmission rates and provides bidirectional communication for video, control signals and PoCXP (Figure 2).
| Figure 2: Kaya Instruments' CoaXPress multiplexer can simultaneously stream data from up to four CXP camera channels over a single coaxial cable. |
Form factors
While many CXP frame grabbers are offered in PCI Express form factors, CXP frame grabber functionality can also be added to other form factors such as 6U and 3U VME form factors using FPGA Mezzanine Cards (FMCs).
Designed to provide a modular I/O interface for baseboard or carrier cards, the FMC-CXP from Kaya Instruments, for example, is capable of capturing image data from up to five CXP cameras and is ideally suited to industrial, defense and aerospace applications. This mezzanine card might be also used as camera simulator, emulating up to five transmitting channels. The FMC-CXP also provides isolated GPIO for I/O signals, such as triggers, shaft encoders and exposure control. Each of the five links supports CXP bitrates to 6.25 Gbps and is capable of providing up to 13W of power to compatible devices via Power over CXP (PoCXP).
Camera support
While seven frame grabber vendors now provide support for the CXP standard, the list of camera vendors that offer CXP-compatible products is even more impressive. In January 2013, there were twelve camera vendors offering line-scan, area array and infra-red cameras in a number of different CXP configurations (see 'CoaXPress interface standard adopted by camera vendors at VISION show' Vision Systems Design, January 2013; http://bit.ly/XSGB5B).
Mercury Peripherals Cameras For Windows 7
As of December 2013, four more camera vendors have entered the market (Table 2). These include BAP Image Systems with its LC8K100CXP, a 100k lines/s two-channel CXP camera, three four port area array cameras from Dreampact and the SC 6800 IR dual channel InSb-based IR camera from FLIR (Wilsonville, OR, USA; www.flir.com).
Click to Enlarge
Added peripherals
Just as the Camera Link standard spawned a generation of peripheral such as standards converters, high-speed image storage devices and optical extenders, so too has the CXP standard. Systems integrators currently deploying Camera Link cameras, for example, can now take advantage of a Camera Link to CXP converter/CXP to Camera Link converter from Tecphos (Falcon, CO; wwwtecphos.com). In operation, the converter can accept a Base Camera Link output at up to 85MHz and output CXP-3 data at 3.125 Gbits/s over a CXP interface. In this way, the camera to computer distances of Camera Link Base cameras can be extended to 100m.
For those wishing to extend this distance further, Kaya Instruments offers a CXP range extender over fiber that allows CXP camera to computer connections to be extended to distances of up to 10km. Like other fiber extenders, such interfaces are not susceptible to electromagnetic interference, a feature useful in industrial environments. In operation, the camera side converter can provide power to the camera over CXP, while the host side converter can take power from the frame grabber.
With the high data rates provided by the CXP standard, it may be necessary in aerospace or high-speed industrial inspection applications to store image data at high data rates for later retrieval and processing. To meet such demands, IO Industries (London, Ontario, Canada; http://ioindustries.com) has added to its line of digital video recorders (DVRs), the DVR Express Core CXP3. With dual 3.125Gbps CoaXPress inputs and two CXP outputs, the recorder can handle dual-channel cameras, or record from two single-channel cameras. By interfacing the CXP outputs to a frame grabber, camera data can be simultaneous captured and viewed and captured data to be reviewed while image capture proceeds.
While the CXP chipset from EqcoLogic currently supports data rates as fast as 6.25Gbps per channel, release 1.2 of the standard slated for release in fourth quarter 2014 this year will increase the speed of the standard to 12.5 Gbps per cable according to the EMVA (see 'CXP aims to run faster' p. 31 of this issue).
CXP aims to run faster
By Chris Beynon, CTO, Active Silicon and Technical Chair for CoaXPress in JIIA.
As part of the recent International camera interface standards meeting in Schongau, Germany, twenty people attended the CoaXPress (CXP) meeting, representing fourteen companies from nine countries. Scheduled for release in Q4 2014, the next version of the CXP standard will ensure that the fastest cameras will continue to operate with CoaXPress.
To date many Version 1.0 products operate with image data rates between 2.0-2.5 GBytes/s (up to 3 times faster than Camera Link Deca). Version 1.1 of the standard also allows the use of a high speed uplink to support line triggers being sent via CXP to a linescan camera at rates above 250kHz.
Speed enhancements for the next version of CXP increase the current maximum data rate per coax cable from the existing 6.25 Gbit/s by adding 10 and 12.5 Gbit/s speeds. This doubles the data rate to 5 GBytes/s using a cable with four coax links, or 7.5 GBytes/s using six links.
Looking ahead 3 to 4 years, however, this may not be sufficient based on the rate of sensor development and customer demands for faster speeds. CXP committee members are therefore investigating options to distribute camera data across multiple frame grabbers, which may be in multiple PCs. This will be more difficult to implement since software features such as automatic discovery and the use of GenICam must be implemented.
CXP currently has a cyclic redundancy check (CRC32) to allow any bit errors to be detected, but there is no mechanism to allow them to be corrected. This is generally not a problem because unlike Ethernet-based systems, for example, CXP is a dedicated point to point link which is nominally error-free. However occasional random single bit errors are possible and options to correct them were considered. Packet resend was rejected, because it gives an unpredictable data rate which would be problematic at the high CXP speeds.
Thus, a forward error correction (FEC) method was considered and a proposal for such a method with a low-implementation overhead is being evaluated. Progress on these topics will be reviewed at the International Standards Meeting in San Jose in Spring this year.
Company Info
Active Silicon
Iver, England
www.activesilicon.com
Adimec
Eindhoven, The Netherlands
www.adimec.com
AVAL DATA
Tokyo, Japan
www.avaldata.co.jp
BAP Image Systems
Erlangen, Germany
www.bapimgsys.com
Bitflow
Woburn, MA
www.bitflow.com
Dreampact
Edinburgh, Scotland
www.dreampact.com
Mercury Peripherals Cameras Wireless
EqcoLogic
Brussels, Belgium
www.eqcologic.com
Euresys
Angleur, Belgium
www.euresys.com
Components Express Inc
Woodridge, IL
www.componentsexpress.com
Demand Creation
Nippa Town, Japan
http://dcreation.jp
FLIR
Wilsonville, OR
www.flir.com
IO Industries
London, Ontario, Canada
http://ioindustries.com
Kaya Instruments
Haifa, Israel
www.kayainstruments.com
Matrox
Dorval, Quebec, Canada
www.matrox.com/imaging
Mercury Systems
Chelmsford, MA
www.mrcy.com
NED
Tokyo, Japan
www.ned-sensor.co.jp
Sensor to Image
Schongau, Germany
www.s2i.org
Silicon Software
Mannheim, Germany
www.silicon-software.de
www.tecphos.com
Mercury Peripherals Cameras Wireless
Vieworks
Gyeonggi-do, South Korea
www.vieworks.com
Vision Systems Articles Archives
Microsoft Teams Rooms scale to different room sizes by using a wide variety of certified audio and video peripherals based on the size and use of the room. By selecting the right core device and console, combined with microphones, speakers, cameras, and displays appropriate for the space, you can deploy Microsoft Teams Rooms into spaces of any size from very small huddle spaces up through very large conference spaces and boardrooms. The full set of all available certified audio and video peripherals that may be used to configure your room is available in the Device Showcase.
This article summarizes the device deployment and configuration requirements for supporting Microsoft Teams Rooms.
Your deployment involves account creation as described in Deploy Microsoft Teams Rooms and set up of meeting consoles as described in Configure a Microsoft Teams Rooms console.
Also, refer to:
Note
Microsoft Teams Rooms sign in to Microsoft Teams, Skype for Business Server 2019, Skype for Business Server 2015, or Skype for Business Online, and may join meetings hosted by any of these services.
Earlier platforms like Lync Server 2013 are not supported by Microsoft Teams Rooms. Microsoft Teams Rooms is not supported in Microsoft 365 or Office 365 operated by 21Vianet, or in GCC-High, or DoD environments.
If you have an on-prem Exchange server, Microsoft Teams Rooms requires the use of Exchange Server 2013 SP1 or later.
Hardware requirements
A hardware deployment includes a selection of a Microsoft Teams Room system, combined with certified audio and video peripherals, and a cabling solution to integrate these devices together. These options are described here.
Supported Microsoft Teams Room systems
All current Microsoft Teams Room devices and bundles are available in the Room Systems product showcase.
| Console | Processor | RAM | Disk |
|---|---|---|---|
| Crestron Flex UC-M130-T with Intel NUC | Core i5 | 8 GB | 128 GB |
| Crestron Flex UC- B130-T with Intel NUC | Core i5 | 8 GB | 128 GB |
| Crestron Flex UC-B140-T with Intel NUC | Core i5 | 8 GB | 128 GB |
| Crestron Flex UC-C140-T with Intel NUC | Core i7 | 8 GB | 128 GB |
| Crestron Flex UC-M150-T with Intel NUC + CCS-UCA-MIC | Core i7 | 8 GB | 128 GB |
| Crestron Flex UC-MX150-T with Intel NUC | Core i5 | 8 GB | 128 GB |
| Crestron Flex UC-B160-T with Intel NUC | Core i7 | 8 GB | 128 GB |
| Crestron Flex UC-C160-T with Intel NUC | Core i7 | 8 GB | 128 GB |
| Crestron Mercury Mini UC-MM30-T | Core i5 | 8 GB | 128 GB |
| Dell OptiPlex 7080 with Logitech TAP | Core i5 & i7 | 8 GB | 128 GB |
| HP Elite Slice for Meeting Rooms G2 | Core i5 | 8 GB | 128 GB |
| HP Elite Slice G2 Audio Ready with Microsoft Teams Rooms | Core i5 | 8 GB | 128 GB |
| HP Slice Partner Ready with Logitech TAP | Core i5 | 8 GB | 128 GB |
| Lenovo ThinkSmart Hub 500 | Core i5 | 8 GB | 128 GB |
| Lenovo ThinkSmart Hub | Core i5 | 8 GB | 128 GB |
| Logitech Tap with Intel NUC | Core i5 | 8 GB | 128 GB |
| Logitech Tap and Lenovo ThinkSmart Tiny | Core i5 | 8 GB | 128 GB |
| Poly G10-T with Lenovo ThinkSmart Tiny | Core i5 | 8 GB | 128 GB |
| Yealink MVC300 with Intel NUC | Core i5 | 8 GB | 128 GB |
| Yealink MVC500 with Intel NUC | Core i5 | 8 GB | 128 GB |
| Yealink MVC800 with Intel NUC | Core i5 | 8 GB | 128 GB |
| Yealink MVC900 with Intel NUC | Core i5 | 8 GB | 128 GB |
| Yealink MVC 300 II | Core i5 | 8 GB | 128 GB |
| Yealink MVC400 | Core i5 | 8 GB | 128 GB |
| Yealink MVC 500 II | Core i5 | 8 GB | 128 GB |
| Yealink MVC 800 II | Core i5 | 8 GB | 128 GB |
| Yealink MVC 900 II | Core i5 | 8 GB | 128 GB |
Note
- Core M3 processors are not supported.
- You need a 32 GB or larger USB drive configured as bootable Windows installation media for Windows 10 Enterprise.
Supported Surface Pro tablets for dock-style systems
| Tablet | Processor | RAM | Disk |
|---|---|---|---|
| Surface Pro 6 | Core i5 | 16 GB or 8 GB | 128 GB or more |
| Surface Pro (fifth Gen) | Core i5 | 8 GB or 4 GB | 128 GB or more |
| Surface Pro 4 | Core i5 | 8 GB or 4 GB | 128 GB or more |
Surface Pro devices require one of the following docking station options:
Certified firmware versions for USB audio and video peripherals
These devices are available at the Room System Accessories product showcase and https://office.com/teamsdevices.
| Microsoft Teams Rooms peripheral | Certified firmware version | Camera supports content camera use |
|---|---|---|
| Aver VC520 Pro Camera + Speakerphone | 1004.35 | |
| Aver VB342+ Camera Soundbar | Soundbar: 0.0.0000.97 | |
| Aver CAM 540 | 0.0.6002.83 | |
| Aver CAM 520 Pro | 0.0.1000.73 | |
| Bose Video Bar VB1 | 19.2 | |
| Crestron Huddly IQ | 1.02.09.33901 | |
| Huddly Canvas | 1.3.25 | ✔ |
| Huddly IQ | 1.3.22 | |
| Huddly IQ Lite | 1.3.29 | |
| Huddly IQ Camera | 1.3.27 | |
| Jabra Panacast Camera | 3.8.22 | |
| Logitech Brio | V2.2.50 | ✔ |
| Logitech 930e | 8.0.914 | ✔ |
| Logitech Rally | 1.2.4 | |
| Logitech MeetUp | Audio — 1.0.172 Video — 1.0.156 | |
| Logitech ConferenceCam Connect | 1.1.248.0 1.1.684 | |
| Logitech Group | 8.5.778 | |
| Logitech PTZ Pro | 1.1.219 | |
| Logitech PTZ Pro 2 | ||
| Nureva HDL300 | 2.3.6 | |
| Poly Eagle Eye Cube Camera | 1.2.0 | |
| Polycom EagleEye IV | 1.0.0 | |
| Polycom CX5100 | 1.2.0.70232 | |
| Polycom Eagle Eye Director II | 2.1.0.10 | |
| Polycom Studio Soundbar | 1.1.2.000570 | |
| Polycom Trio 8500 / 8800 | 5.7.2.3205 | |
| EPOS SP 220 MS | 2.0.12.0 | |
| EPOS SP20 | 1.2.15 | |
| EPOS SP30 | 2.1.52 | |
| EPOS SP30T | 3.2.63 | |
| EPOS Expand 80T + 2 Extension Mics | Speakerphone — 4.6.55 Extension Mic — 0.2.314 | |
| Jabra 510 | 2.10.0 | |
| Jabra 710 | 1.8.0 | |
| Jabra 810 | 1.2.23 | |
| Yamaha YVC-1000 | 100c | |
| Yealink CP900 | 100.20.0.29 | |
| Yealink UVC30 | 105.420.0.11 | ✔ |
| Yealink UVC40 All-in-one Video bar | 128.410.0.10 | |
| Shure Intellimix P300 Audio Conferencing Processor+ Shure MXA 310 Table Array Mic | 4.1 | |
| Shure Intellimix P300 Audio Conferencing Processor + Shure MXA 910 with Intellimix Ceiling Array Mic | 4.1 | |
| Shure Intellimix P300 Audio Conferencing Processor+ Shure MXA 310 Table Array Mic + MXN5W-C Ceiling speaker | P300 DSP: 4.1.11 MXA310 Table Array mic: 4.1.41 MXN5W-C Speaker: 1.0.4 | |
| Shure Intellimix P300 Audio Conferencing Processor + Shure MXA 910 with Intellimix Ceiling Array Mic + MXN5W-C Ceiling speaker | P300 DSP: 4.1.11 MXA910 Ceiling Array mic: 4.1.41 MXN5W-C Speaker: 1.0.4 | |
| Biamp Tesira Fore AVB VT4 Fixed audio DSP+ ‡ Sennheiser TeamConnect Ceiling 2 Microphone+ ‡ Tesira EX-UBT ‡ | Biamp DSP: 3.12.0.15 TCC2: 1.3.3 EX-UBT: 3.12.0.15 | |
| Biamp Tesira FORTÉ AVB VT4 Audio DSP+ Biamp Parlé TCM-XA Ceiling Microphone+ Biamp Desono C-IC6 ceiling mounted loudspeaker | Audio FW version: 3.15 | |
| Biamp TesiraFORTE AVB VT4+ Parle TTM-X(Table Mic)+ Ex-UBT | Audio FW version: 3.15 | |
| Bose ControlSpace EX-440C DSP + Bose P2600A AmpLink Amplifier + Sennheiser TCC2 Ceiling Microphone + Bose EdgeMax EM180 Ceiling Speaker | Bose DSP: 2.290 P2600A : 1.160 TCC2: 1.4.2 | |
| Bose ControlSpace EX-440C DSP + Bose P2600A AmpLink Amplifier + Sennheiser TCC2 Ceiling Microphone + Bose DesignMax DM2C-P Ceiling Speaker | Bose DSP: 2.290 P2600A : 1.160 TCC2: 1.4.2 | |
| Bose ControlSpace EX-1280C DSP + Bose P2600A AmpLink Amplifier + Sennheiser TCC2 Ceiling Microphone + DesignMax DM2C -LP Ceiling Speaker | Bose DSP: 2.290 P2600A : 1.160 TCC2: 1.4.2 | |
| Bose ControlSpace EX-1280C DSP + Bose P2600A AmpLink Amplifier+ Sennheiser TCC2 Ceiling Microphone + EdgeMax EM180 Ceiling Speaker | Bose DSP: 2.290 P2600A : 1.160 TCC2: 1.4.2 | |
| QSC Q-SYS Core 110f + Sennheiser TCC2 Ceiling Microphone + QSC EnergyStar Power Amplifier SPA2-60 + Q-SYS NS Series Network Switch NS-1108P + QSC Column Surface mount Speakers AD-S402T + QSC PTZ 20x60 Camera | Q-sys Designer: 8.4.0.1 TCC2 : 1.5.1 Dante 1.2.0 N/A N1100v6.4.2.8 N/A 6.3.2.2 | |
| QSC Q-SYS Core 110f + Sennheiser TCC2 Ceiling Microphone + QSC EnergyStar Power Amplifier SPA2-60 + Q-SYS NS Series Network Switch NS-1108P + QSC Column Surface mount Speakers AD-C6T-LP + QSC PTZ 20x60 Camera | Q-sys Designer: 8.4.0.1 TCC2 : 1.5.1 Dante 1.2.0 N/A N1100v6.4.2.8 N/A 6.3.2.2 |
‡ Customers may choose either the Dante interface or the network switch recommended by Biamp/Sennheiser for this bundle.
USB extenders
- USB ports on tablet docks are USB 3.0 compatible. You can use a USB 2.x extender but doing this limits you to USB 2.x speeds on the far end. Extenders are not recommended for USB 3.0 peripherals.
- An extender must meet USB 2.0 or newer specifications.
- Tablet docks support at least two stages of external USB hub extension. If you connect more than two USB hubs in series, check with the dock manufacturer to confirm whether they support series connection.
- Wired GbE connection in the room. Ethernet cable of appropriate length.
- Up to two 1080-p displays with HDMI connections. HDMI cables of appropriate length.
Note
A consumer TV used as a front of room display needs to support/enable the Consumer Electronics Control (CEC) feature of HDMI so that it can switch automatically to an active video source from standby mode. This feature is not supported on all TVs.
Microsoft Teams Rooms does not use a keyboard. If needed, the Admin should use the on-screen keyboard. A USB keyboard or mouse will be required when imaging the Microsoft Teams Rooms device.
The following tables provide recommendations for peripherals based on room size:
Microsoft Teams Rooms Certified Audio Peripherals
| Room Type | Number of People | Recommended maximum distance from microphone to speaker | Device by maximum room size | Comments |
|---|---|---|---|---|
| Focus 10' x 9' | 2–4 | 1.5 m | Logitech Connect | Logitech Connect devices include a camera that must be positioned at the front of the room (not center of table) to capture local meeting attendees. |
| Small 16' x 16' | 4–6 | 2.0 m | Jabra 510 Sennheiser SP20 | Playback volume can be limited for larger rooms. |
| Medium 18' x 20' | 6–12 | 2.4 m | Jabra 710 Jabra 810 Logitech MeetUp Logitech Group Polycom Trio Polycom CX5100 Sennheiser SP 220 MS Yamaha YVC-1000MS | The Logitech MeetUp includes a camera so it must be positioned at the front of room (not center of table to capture local meeting attendees). In general, rooms with long rectangular or u-shaped tables may benefit from satellite microphones. SP 220 MS must be used in daisy-chain configuration. |
| Large 15' x 32' | 12–16 | 3 m This distance also applies to the area covered by each connected satellite microphone. | Logitech Group + satellite mics Polycom Trio+ satellite mics Polycom CX5100 + satellite mics Sennheiser SP 220 MS Yamaha YVC-1000MS + satellite mics | All audio devices listed in this row support satellite microphone options. CX5100 includes a built-in 360-degree camera so that the device can be positioned in the center of table. SP 220 MS must be used in daisy-chain configuration. |
Microsoft Teams Rooms Certified Video Peripherals
| Room Type | Number of People | Device by Optimal room size | Comments |
|---|---|---|---|
| Focus 10' x 9' | 2–4 | Logitech Connect Logitech MeetUp Polycom CX5100 | |
| Small 16' x 16' | 4–6 | Logitech C930e Logitech MeetUp Logitech BRIO Logitech PTZ Pro Polycom MSR Polycom CX5100 | Logitech PTZ Pro often bundled with Logitech Group |
| Medium 18' x 20' | 6–12 | Logitech MeetUp Logitech BRIO Logitech PTZ Pro Polycom MSR Polycom CX5100 | |
| Large 15' x 32' | 12–16 | Logitech PTZ Pro Polycom MSR Polycom CX5100 |
Note
Front of room display resolution should be set to no greater than 1920x1080p.
Required software downloads
To build your own Microsoft Teams Rooms image, follow the instructions in Configure a Microsoft Teams Rooms console. Those instructions guide you through download of all software necessary for installation.
Note
IT professionals will need access to Windows 10 Enterprise ISO files through their volume licensing agreement.
SkypeRoomProvisioningScript.ps1 is an optional download you can use to provision Microsoft Teams Rooms accounts.
See also