Office workers wearing bluetooth headsets in workplace

With flexible and hybrid work setups becoming the new normal, wireless headsets - especially Bluetooth ones - have quickly become must-haves for office communication. Whether you’re working from home or navigating a busy office, they give you the freedom to move around without being tethered to your desk.

But as more employees rely on Bluetooth headsets, a new challenge is emerging: managing Bluetooth density.

So, what exactly is Bluetooth density? How does interference happen when too many Bluetooth devices are in close proximity? And most importantly, how can businesses ensure smooth wireless communication in a packed office?

In this post, we’ll dive into these questions and share some practical tips to help you get the best performance from your wireless headsets. Plus, we’ll explain the difference between Bluetooth and DECT headsets, and how combining these technologies can provide a more reliable, interference-free solution.

We’ll also look at how brands like Yealink and Poly are leading the way in wireless headsets with innovative solutions for modern workplaces. Plus, we’ll share our top picks for wireless deployment, featuring standout models from these trusted brands to help you find the best option for your office.

Understanding Bluetooth Headset Technology

Woman on call wearing Yealink WH64 headset

Bluetooth is everywhere these days, and for good reason. Originally designed for short-range communication, its real superpower is flexibility. You can connect a Bluetooth headset to multiple devices, like your computer, desk phone (where compatible), and mobile, making it perfect for hybrid workers who switch between devices throughout the day.

Bluetooth headsets are especially well-suited for workers who rely on their mobile phones as their primary communication tool and are on the move more than 60% of the time.

Typically, Bluetooth headsets work within a range of about 10 metres, which is just right for smaller offices or personal workspaces. When used with the included USB Bluetooth adapter (aka dongle) to connect to a PC or compatible desk phone that range can stretch a bit, usually landing somewhere between 10 and 30 metres. But here’s the catch - Bluetooth runs on the 2.4 GHz frequency, the same one used by Wi-Fi and other devices. So, in busy environments with lots of wireless traffic, you might run into interference, which can impact performance.

To be more specific, Bluetooth operates between 2,402 MHz and 2,480 MHz, a band divided into 79 channels, each 1 MHz wide. Think of it like a busy highway with 79 lanes, where not just headsets but also Wi-Fi networks and other Bluetooth devices are all trying to squeeze in. The more crowded the highway gets, the higher the chances of traffic jams - or in this case, interference.

Below we'll explore some of specific features of Bluetooth headsets and how they relate to Bluetooth density and interference.

Adaptive Frequency Hopping

Modern Bluetooth headsets are pretty clever at handling interference. When they pick up on a frequency with too much noise, they avoid it, keeping your calls clear. This works fine if there are only one or two Wi-Fi access points nearby, but with more devices crowding the airwaves, Bluetooth headsets have fewer options, which can lead to more interference. Some models, like the Yealink BH70 and BH74 take it a step further by by combining both Bluetooth standard and proprietary anti-interference technology to achieve higher deployment density, effectively doubling the number of headsets that can be used at the same time, significantly cutting down on disruptions.

Range and Power

Bluetooth devices come with three different power levels, known as classes. Most Bluetooth headsets are Class 2, which offers a good balance between performance, range, and battery life while minimising interference with other devices. Some brands also offer Class 1 headsets, which have a much longer range. These headsets use adaptive power control, meaning they’ll switch to Class 1 power when paired with a Class 1 device or when extra range is needed. When less range is required or they’re paired with a Class 2 device, they automatically switch to Class 2 power to conserve energy.

Class Maximum Power Approximate Range
1

100 mW

100 meters

2

2.5 mW

10 meters

3

1 mW

1 meter

Man outside on laptop wearing Yealink BH70 headset

Multipoint Connections

A multipoint Bluetooth headset lets you connect to two devices at the same time - like your mobile phone and a Bluetooth-enabled computer or UC system. It’s super handy for switching between taking calls on your phone and listening to audio from your computer without having to disconnect or swap headsets. Perfect for anyone juggling multiple devices during the day.

That said, in a busy office, this flexibility could add extra strain to the already crowded Bluetooth frequencies, making interference more likely - especially if everyone’s connected to two or more devices. To keep things running smoothly, it’s a good idea to limit the number of devices your headset is paired with in high-traffic spaces.

Wideband Audio

Wideband technology offers a wider frequency range than traditional phones, which means you get clearer, more natural-sounding voice and audio quality. The trade-off? It uses more data, which takes up more of the radio frequency spectrum and drains the battery faster. For this reason, many headsets with wideband features allow you to switch to standard audio when you want to conserve battery life or reduce wireless congestion in busy environments.

Using Bluetooth with Computers

While many computers come with built-in Bluetooth, these radios often don’t have the full set of features needed for high-quality voice communication. To solve this, many office Bluetooth headsets designed for computers come with USB Bluetooth adapters, ensuring your voice sounds the best and clearest while minimising any audio issues.

If you want to learn more about Bluetooth headsets, as well as the best ones to buy, check out our guide on how Bluetooth headsets work.

What Is Bluetooth Density?

In simple terms, Bluetooth density refers to how many Bluetooth devices can be active at the same time in a shared space without causing connection problems or messing up audio quality. The more devices you have running, the more likely you’ll experience interference and performance issues.

Imagine a typical open-plan office - once enough Bluetooth headsets are in use, you might start to notice things like distorted audio, dropped calls, or just poor sound quality overall. That’s because the wireless spectrum that Bluetooth relies on gets overused.

Bluetooth operates on the 2.4 GHz frequency, which is already pretty crowded with other tech like Wi-Fi. When too many devices are fighting for the same bandwidth, interference is bound to happen. This can be a real problem in high-density spaces, like call centres or large offices, where dozens of Bluetooth headsets are active at once.

What Causes Bluetooth Interference?

Woman in dimly lit study working on computer wearing headset

Bluetooth interference is a common challenge in busy office environments, but understanding the causes can help you address and minimise it effectively. Here’s a breakdown of the most common culprits:

1. Wi-Fi Congestion

Both Bluetooth and Wi-Fi operate on the 2.4 GHz frequency band, which can become overcrowded in offices with multiple Wi-Fi networks or a high number of connected devices. When Wi-Fi traffic ramps up, it can interfere with Bluetooth signals, leading to:

  • Choppy audio quality
  • Dropped calls
  • Unreliable connections

2. Physical Barriers

Walls, glass partitions, and metal surfaces can block or reflect Bluetooth signals, making it harder for devices to maintain stable connections. This is especially problematic in offices with:

  • Thick walls
  • Glass meeting rooms
  • Metal furniture or dividers

3. Competing Bluetooth Devices

In high-density spaces, where many Bluetooth headsets and devices are used simultaneously, signal overlap can occur. While Bluetooth’s adaptive frequency hopping can help, too many devices in close proximity can still overwhelm the system, resulting in:

  • Interference
  • Disrupted connections
  • Poor audio performance

4. Microwave Ovens

Surprisingly, even microwave ovens can interfere with Bluetooth connections. Microwaves also use the 2.4 GHz band, and if your workspace is near the office kitchen, this can occasionally disrupt signals.

5. Low Battery Levels

A low battery on your Bluetooth headset can impact its ability to maintain a strong and stable signal. This can result in:

  • Dropped calls
  • Poor audio quality Keeping your headset fully charged is an easy way to avoid this issue.

By identifying these potential sources of interference, you can take proactive steps to improve your office's wireless performance and ensure smoother communication.

How Many Bluetooth Headsets Can Be Connected at Once?

How well Bluetooth headsets work in an office depends on things like the size and layout of the space, as well as furniture, carpets, curtains, and even walls or metal objects that can affect the signal.

Most of the time, you can have plenty of people using Bluetooth headsets because not everyone will be on a call at once. But if too many headsets are active at the same time, the sound quality can take a hit. To keep things running smoothly, it’s a good idea to plan for the busiest times when most headsets might be in use.

As a guideline:

In most cases, you should be fine with up to 50 Bluetooth headsets in an office. This works because not everyone will be on a call at the same time, minimising interference. However, if you're concerned about Bluetooth density or sound quality during peak usage, feel free to speak with us. We can help you evaluate your setup.

However, in environments crowded with Wi-Fi networks, Bluetooth devices, and other electronics competing on the 2.4 GHz band, interference can become a challenge. This is where DECT headsets come in. Operating on a different frequency, DECT headsets can ease congestion and ensure clearer, more reliable communication, making them an excellent complement to Bluetooth setups.

Understanding DECT Headset Technology

Woman wearing Yealink WH64 at her desk

DECT, short for Digital Enhanced Cordless Telecommunications, is a wireless technology built specifically for voice calls. It runs on its own dedicated frequency - 1,880 to 1,900 MHz in Europe and 1,920 to 1,930 MHz in North America (known as DECT 6.0). The beauty of DECT is that it lets multiple devices, like cordless phones or wireless headsets, work side by side without any interference, making it perfect for busy workplaces.

While Bluetooth headsets operate on the 2.4GHz band, DECT headsets operate on their own dedicated frequency band - 1.9 GHz. This means they avoid the interference issues that can bog down Bluetooth devices. If you’re working in a larger office where clear, strong audio quality is essential, DECT is often the better choice. With a range of up to 100 metres (and sometimes more), DECT lets you move freely across bigger spaces while staying connected without any worry about dropped calls or weak signals. 

DECT is also built for high-density environments, allowing more users to be online at once without affecting performance. That’s why it’s a popular pick for places like call centres or big open-plan offices where seamless communication is a must. Below is a simple table showing the differences between Bluetooth and DECT technologies.

Feature DECT Bluetooth
Radio frequency 1.9 GHz 2.4 GHz
Voice quality Desk phone quality Mobile phone quality
Use with Wi-Fi Excellent Limited
Use with mobile phones No Yes
Range Up to 106.7 meters Up to 9.1 meters (Class 2) Up to 100.6 meters (Class 1)
Talk time Excellent Excellent
Security Excellent Excellent

man concentrating on computer wearing Yealink WH64 headset

Channels

DECT splits radio frequencies into smaller channels, similar to lanes on a highway (like with the Bluetooth example). Before a device, like a headset, hops into a lane, it checks to make sure it’s clear. This keeps everything running smoothly, allowing devices to “take turns” using the lanes without causing any traffic jams or signal interference.

A DECT system typically has two parts: the headset and the base station. These connect by securely exchanging codes, like a virtual handshake. Once they’re paired, they communicate privately, and no other DECT devices can interfere because they don’t have the matching code.

DECT is perfect for office environments because it supports a lot of wireless devices, ensures clear, uninterrupted communication, and prevents interference, even when many headsets are in use at the same time.

Interference

DECT headsets are built to automatically dodge interference and keep your audio crystal clear. When you start a call, the headset selects the best available channel. If interference pops up during the call, the headset can switch to a different channel on its own to avoid any issues.

Interference usually happens when two headsets nearby are using the same channel. This can occur if someone moves too close to another user on the same channel or if you’re in a busy office where all the channels are in use. You might hear this as popping sounds, clicks, or even brief silences of audio.

To help avoid this, DECT headsets and their base stations constantly monitor which channels are free and which are experiencing interference. If they sense a problem, they quickly switch to a better channel. This system, known as adaptive frequency hopping, makes sure your audio stays clear by constantly adjusting to changes in the environment.

Roaming Range

When picking a wireless headset, the ability to move around while staying connected is super important. The distance you can roam, known as the roaming range, depends on the strength of the radio signal and anything that might block it.

In wide open outdoor spaces, DECT wireless headsets can typically reach up to Up to 106.7 meters. That’s the maximum range manufacturers often quote because it’s easy to measure when there are no obstacles in the way. But let’s be real - most of us aren’t using our headsets in wide open fields!

In an office, things like walls, furniture, and even people can block or weaken the signal, cutting down the range. So, while the advertised range sounds great, the real-world roaming range indoors is usually shorter. The more barriers in the way, the less distance you’ll be able to move while staying connected.

Wireless Density in DECT Headsets

Like Bluetooth density, wireless density in DECT headsets refers to how many users can actively use their headsets within the same space. This depends on two main factors: the number of simultaneous users and the size of the area they’re in. Active users could be anyone on a call, listening to music, or using their headset for work-related tasks. While DECT technology supports more users than Bluetooth, there are still limits to how much the system can handle.

Frequency Capacity

Each DECT headset takes up a portion of the available frequency, and as long as the number of users stays within the system’s channel capacity, everything runs smoothly. However, if the demand exceeds the available channels, roaming range shrinks, and performance can degrade. Room size and user proximity also play a role - users spaced farther apart experience fewer issues, while those closer together may see reduced roaming range in high-density situations.

Channel Sharing

When there are more users than available channels, the system resorts to channel sharing. This can work effectively in larger areas where users are spread out, but in compact spaces, sharing channels may lead to brief silences or dropped connections. If a user moves far from their base station in a crowded environment, their headset might struggle to find a clear channel, potentially muting calls or reducing audio quality.

Man looking at mobile phone while wearing Yealink WH64 headset

Wideband Audio

Wideband audio, while offering better sound clarity, consumes more bandwidth, limiting the number of users who can operate simultaneously. Many DECT headsets allow users to switch to standard audio to conserve bandwidth and battery life, with wideband audio often halving the maximum number of active users in a given area. 

Adaptive Power

Some headsets, such as the Plantronics Savi series, include adaptive power features that lower transmission power when close to the base station. This reduces strain on the system and allows more headsets to function in the same environment. Additionally, mixing DECT systems operating on different frequency bands, like 1.9 GHz and 900 MHz, can further increase capacity by tapping into separate ranges.

How Many DECT Headsets Can Be Connected at Once?

The number of DECT headsets your office can handle smoothly depends on things like the size of the space, the furniture and materials in the building, how many people are using them, whether wideband audio is on, and how far the headsets are from their base stations. If you’re planning to use more than 100 headsets, we recommend a site survey to make sure everything runs without a hitch, as performance can vary based on your setup.

Tips For Managing Wireless Technology in High Density Offices

Man wearing Yealink WH64 headset at desk

In high-density office environments, managing wireless density is essential to ensuring smooth and uninterrupted communication. To help optimise wireless headset performance and reduce interference, here are some practical strategies to consider.

Leverage Adaptive Frequency Hopping

Bluetooth’s Adaptive Frequency Hopping (AFH) is a powerful feature for avoiding interference. It enables devices to automatically switch between channels in the 2.4 GHz range, finding clearer ones to maintain smooth communication. Yealink Bluetooth headsets take full advantage of this technology, offering enhanced performance even in busy environments with lots of competing wireless signals. Ensuring your Bluetooth devices have AFH enabled can significantly reduce signal disruptions and keep your connections stable.

Mix Bluetooth and DECT Technologies

Relying solely on Bluetooth headsets in a busy office can overwhelm the available spectrum. A smarter approach is to mix Bluetooth and DECT devices. Since DECT operates on a different 1.9 GHz band, it avoids the congestion on the 2.4 GHz band, giving you more room to work with. This way, both mobile and stationary employees can enjoy high-quality audio without interference.

In fact, you can even combine Bluetooth and DECT within the same headset. For example, the Yealink WH64 offers hybrid connectivity, letting you switch seamlessly between DECT for stationary work and Bluetooth for mobile use. This makes it an excellent choice for offices needing both flexibility and reliability.

Additionally, consider using both 1.9 GHz and 900 MHz DECT headsets. The 1.9 GHz band provides 30 channels, while the 900 MHz band adds 54 channels, giving you up to 84 channels when combined. These systems operate on different frequencies, allowing them to work together without interference, significantly boosting density and range.

Reduce Dual Connectivity

Many Bluetooth headsets let users stay connected to two devices (like a phone and a laptop) at the same time. While this is handy, it can strain the Bluetooth channels in high-density environments. Limiting dual connectivity to only the essential devices can lighten the load on the spectrum, improving overall performance.

Transition Wi-Fi to 5 GHz

Bluetooth and Wi-Fi both operate on the 2.4 GHz frequency band, which can lead to interference and reduced audio quality in busy environments. While Bluetooth’s adaptive frequency hopping can help mitigate this issue, the presence of multiple Wi-Fi access points further limits available channels and increases the chances of disruptions.

One effective solution is to transition your Wi-Fi network to the 5 GHz band (802.11a standard). The 5 GHz band is less crowded, offers more channels, and reduces competition for bandwidth, allowing Bluetooth devices to operate more smoothly and reliably.

Understand Usage Patterns and Plan for Growth

Think about how your team uses their headsets day to day. Are they mostly on calls, joining virtual meetings, or streaming webinars and training sessions? Each activity uses up wireless capacity differently, so understanding these patterns helps you plan better and avoid unnecessary disruptions.

It’s also worth paying attention to the busiest times of the day when everyone’s online. Knowing these peak usage periods can help you ensure there’s enough wireless capacity to keep things running smoothly, even when demand is high.

And don’t forget about the future. As your team grows, so will your need for more headsets. Leaving a little extra capacity in your plan now means you won’t have to scramble later when more people join. A bit of foresight goes a long way in keeping your network reliable and frustration-free.

Designing Office Spaces for Better Performance

Creating a wireless-friendly office environment is about more than just choosing the right technology. The layout of your workspace, the materials used in your building, and even the furniture you select can have a significant impact on how well your wireless headsets perform. By strategically designing your office, you can minimise interference, maximise wireless density, and ensure seamless communication for your team. Below, we explore key considerations to help you optimise your office for reliable wireless performance.

Segment Work Areas

To reduce wireless congestion and optimise performance, start by selecting the right headset technology for your team’s needs and strategically segmenting work areas. If your office has high user density, or if sound quality and range are key, DECT wireless headsets are a great option. For employees who primarily use mobile phones Bluetooth headsets with multi-device connectivity are more suitable.

To maximise efficiency, consider designating specific zones for different technologies. For instance, assign areas for DECT headsets or wired devices and separate zones for Bluetooth use. This spreads out the demand on wireless networks and minimises interference, especially in environments where the 2.4 GHz band is heavily used.

Building Design and Materials

The materials in your building can affect how well wireless signals travel. For instance, concrete, metal, and walls can block wireless signals, which helps separate wireless networks on different floors. But wooden floors let signals pass through, which can limit the number of headsets that work well in your space. Be sure to take these materials into account when planning how many headsets your building can support. The way your office is set up - what some call the "clutter factor" - can greatly affect how many wireless headsets can be used at once. The worst setup for wireless density is an open, sparsely furnished office where signals travel freely and are picked up by every device. In contrast, a well-furnished office with cubicles, carpets, and sound-dampening ceilings can support far more headsets without interference. In fact, the difference in density between these two environments can be up to four times greater.

Office Furniture

The way your office is furnished - often referred to as the “clutter factor” - can greatly impact how many wireless headsets you can use without interference. In an open, sparsely furnished office, signals travel freely and are picked up by more devices, reducing density. On the other hand, an office with cubicles, carpets, and sound-dampening ceilings can support many more headsets without signal congestion. The difference in density between these two setups can be as much as four times greater.

Woman at desk wearing Yealink WH64 headset

Consider Nearby Devices

Even if you only occupy one floor, the wireless signals from neighbouring offices or buildings can interfere with your devices. Make sure you’re aware of what technologies they’re using, as they might share the same wireless spectrum. Within your office, walls and cubicles can help divide users into smaller groups, which improves performance. Taller cubicle walls, in particular, provide better isolation and help reduce signal interference in crowded areas.

Limit Users in Open-Plan Layouts

In open office spaces with few or no walls, managing the number of active Bluetooth headset users is essential. When the number of headsets making calls exceeds the available channels, you may start to experience signal interference. To prevent this, aim to keep active calls under 50 at a time. Since not everyone will be on a call simultaneously, the total number of supported users can be higher, as long as peak usage is managed effectively.

Utilise Signal Isolation

If your office has physically separated areas that don’t share the same wireless signals, you’re in luck! These spaces can operate independently, which means you can support more users than in an open-plan layout. In larger offices, creating isolated sections can help increase the number of headsets you can use without running into interference issues.

Our Top Headset Picks for Wireless Deployment

Yealink WH64 on desk next to laptop and Yealink IP phone

When deploying wireless headsets in your office, selecting the right technology - Bluetooth, DECT, or Hybrid - can make all the difference in ensuring smooth, interference-free communication. Here are our top picks for each category, tailored to meet diverse workplace needs:

Yealink BH70 Bluetooth Headset
From: $158 inc GST
  • Works With PC + Mobile Phone
  • All Day wearing comfort
  • Enhanced 360 Busy light
  • 3 mic beamforming noise cancellation
Buy Now

The Yealink BH70 is a standout choice for offices that value mobility and flexibility. Powered by advanced Bluetooth 5.2 technology and Yealink’s proprietary anti-interference features, this headset sets a new standard for reliable communication in busy and complex environments. With innovative design and cutting-edge technology, the BH70 ensures clear calls, long battery life, and the ability to handle higher device density.

Key Features:

  • Proprietary Anti-Interference Technology: The Yealink BH70 combines the best of standard Bluetooth technology - like short packet transmission, data retransmission, Adaptive Frequency Hopping (AFH), and adaptive power adjustment - with Yealink’s own adaptive algorithm. This powerful combination not only detects interference quickly but also enhances how Bluetooth’s anti-interference features are applied, delivering smooth, reliable communication even in the most challenging environments.
    Enhanced Deployment Density: Thanks to Yealink’s adaptive technology, the BH70 can support nearly twice as many headsets in the same area. In fact, it can handle 150+ devices within a 900-square-meter space, making it a perfect choice for high-density office environments.
  • Extended Range: Operates seamlessly up to 50m, ensuring freedom of movement.
  • Exceptional Call Clarity: Equipped with innovative 3-Mic Noise Cancellation and Acoustic Shield Technology 2.0 for distraction-free conversations.
  • Long Battery Life: Offers up to 35 hours of talk time, 43 hours of music playback, and a 25-day standby mode - ideal for long workdays.

The Yealink BH70 stands out for its ability to combine the best of standard Bluetooth technologies with proprietary innovations, making it a top choice for offices that need to handle high device density and minimise interference. Whether you’re in a busy open-plan office or working in a hybrid setup, the BH70 delivers the reliability and performance your team can count on.

Top DECT Headset: Poly Savi 8400

Poly Savi 8400 Series Office Wireless Headset
From: $570 inc GST
  • Works With - Desk Phone + PC/Mac + Mobile/Tablet
  • Up to 13 hours of talk time on a single charge
  • ANC in Stereo (8420) options
  • DECT Wireless Headset
  • Base unit also compatible with 7300, 7400 series
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For environments requiring robust performance, superior audio quality, and minimal interference, the Poly Savi 8400 series is a top-tier option. It’s particularly well-suited to users needing reliable multi-device connectivity.

Key Features:

  • Triple Connectivity: Connects seamlessly to a desk phone, PC, and mobile devices, with the flexibility to add a PC dongle for remote work.
  • Active Noise Cancelling: The Savi 8420 model includes ANC, making it the only DECT headset that blocks out background noise for desk phone users.
  • Unmatched DECT Performance: Operates on the 1880–1900 MHz DECT frequency for interference-free calls, with a range of up to 180m.
  • High Security: Features secure wireless communication with 64-bit encryption and ensures no interference with Wi-Fi frequencies.

The Poly Savi 8400 is ideal for large offices, call centres, or any setting where multiple devices are used simultaneously.

Yealink WH64 Wireless Headset
MSRP: $119
From: $260 inc GST
Save: $119
  • Works With - PC + USB Desk Phone + Mobile Phone
  • DECT and Bluetooth hybrid technology
  • 3-Mic Noise Cancellation
  • Ergonomic and lightweight design
Buy Now

The Yealink WH64 is a groundbreaking solution that merges DECT and Bluetooth technologies, making it the first headset to offer this innovative hybrid approach. This gives businesses unmatched flexibility and adaptability across various devices and work environments.

Key Features:

  • Dual Technology: Combines DECT and Bluetooth connectivity for seamless integration with PCs, mobile devices, and USB desk phones.
  • Pioneering Hybrid Design: As the first headset to merge DECT and Bluetooth, it offers the best of both worlds, ensuring reliability and mobility.
  • Advanced Noise Cancellation: Features 3-Mic Noise Cancellation and Acoustic Shield Technology 2.0 for crystal-clear communication.
  • Ergonomic Comfort: Designed for all-day wear with a lightweight, adjustable frame.
  • Versatile Range: Allows freedom of movement while maintaining stable, high-quality connections.

The Yealink WH64 is perfect for businesses looking to future-proof their wireless deployment and cater to both desk-based and mobile employees.

Let Us Help You Choose the Right Wireless Solution

smiling woman wearing wireless headset

Planning a wireless headset deployment for your office can feel overwhelming, especially when balancing flexibility, performance, and user density. That’s where we come in.

At Simply Headsets, we specialise in helping businesses like yours find the perfect wireless solutions. Whether you’re looking for Bluetooth headsets for mobility and multi-device compatibility, DECT headsets for high-density support and interference-free performance, or a Hybrid solution for ultimate adaptability, our team is here to guide you every step of the way.

We’ll work with you to assess your unique office needs, recommend the best technology, and ensure your wireless setup is optimised for seamless communication and productivity.

Contact us today to let us help you create a tailored wireless deployment plan and equip your office with the perfect headsets for your team.