Dec . 2025
Are you looking to gain accuracy with your sensors? If you currently have standard sensors, you might be facing frequent failures. However, you shouldn't have to settle for that level of frustration. In this guide, we explore powerful UWB radar, including interference resistance. We highlight clear comparisons to other tech and showcase important use cases for solutions.
We know that tracking with precision is important. At G-NiceRF, we want to help you achieve that. We start off with the definition of what is UWB radar: it is the emission of short nanosecond pulses of radar.
While this is technically complex, you need to know that this process allows you to use an exceptionally broad 500MHz bandwidth. Compared to old narrowband radios, our modules will offer you superior performance. In addition to ultra-wide bandwidth, we use UWB impulse radar technology that measures time to deliver you with an accurate range at the centimeter level. Finally, this UWB radar system is very good at dealing with interference.
An IR-UWB radar works with short pulses. Continuous waves are avoided. Our UWB radar sensor works with UWB radar chip. You transmit data at 6.8 Mbps. And that's fast. We test this hardware extensively. You see UWB radar applications growing. Our UWB radar sensor price is affordable.
You get solid UWB radar development kit options. And we make sure of stability. So, your data is safe. A UWB radar vision is clear. And that's why you trust the results.
You want to learn how UWB radar works. The mechanics are explained here. Standard sensors fail in clutter, our systems don't. You get the advantages of UWB radar easily. We have compared UWB radar vs FMCW radar. You will see the benefits.
You measure time flight, we send pulses. UWB impulse radar is different. It doesn't use continuous waves. You measure in nanoseconds. We do 1ns pulses. So, the distance is exact. You get data instantly, and the timing is precise.
Sensors get baffled with signals that bounce off walls. This is not the case with a UWB radar system. You ignore the reflections. We concentrate on direct paths. You get 500MHz bandwidth. So, clutter is not a problem. Signal integrity stays high.
Most walls will block signals. However, ours pass through. Our through-wall radar UWB can see through obstacles. Lower ranges in frequencies can have obstacles be transparent. Thus, detection is effective since motion can easily be seen.
Your signals can be hidden due to noise. But we stay beneath it. UWB radar sensor units run low power levels. You transmit at -41.3 dBm/MHz. Additionally, to stay quiet, a signal can be hidden. Thus, the signal is stealthy.
Fine details are a must. We definitely have them. Ir-UWB radar can see differences in separated objects, even ones that are 10 cm apart. You can determine close targets. Additionally, that can be achieved through short pulses. Hence the image will be sharper.
Technical Parameter | UWB Radar (G-NiceRF) | FMCW Radar | WiFi / Bluetooth (RSSI) | Ultrasonic Sensors | PIR Sensors |
Signal Architecture | Impulse Radio (IR) | Continuous Wave (CW) | Continuous Carrier | Sound Wave | Infrared Thermal |
Pulse Duration | 1ns Narrow Pulses | Modulated Chirps | Millisecond Packets | >1ms Pulses | Continuous Passive |
Bandwidth Spectrum | >500 MHz | 200 MHz - 4 GHz | 20 - 80 MHz | <20 kHz | Infrared Spectrum |
Spectral Density | -41.3 dBm/MHz | High Power (>10 dBm) | High (>20 dBm) | High SPL | N/A (Passive) |
Range Resolution | ~10 cm Separation | 50 - 100 cm | 3 - 5 Meters | 2 - 10 cm | Binary (Motion Only) |
Multipath Immunity | High (Time Domain) | Medium (Clutter) | Low (Reflection High) | Low (Echo Prone) | Low (Thermal Drift) |
Wall Penetration | Excellent (Concrete) | Moderate | Low (Attenuation) | None | None |
Technical Performance Matrix: UWB Radar vs. Standard Sensor Technologies!
Tools need to be compared in order to see the full picture. WiFi is limited to a data connection. UWB radar specializes in pinpointing accurate data. WiFi and UWB radar is no contest. Here, the UWB short range radar is accurate to centimeters.
WiFi is okay with approximate locations. With UWB radar, and an accuracy of 10 cm, that is not the case. Positions can be checked often, hence UWB short range radar is accurate. You can trust the location since errors are minimal.
We rely on UWB radar units and the Time of Arrival method. We measure using the speed of light. We compute ranges of 25 Ms. Lag is non-existent, and you get real-time data.
Angles are critical. We measure them, and a UWB radar system checks the phases. You observe with an accuracy of less than 3 degrees as we utilize 6.5 GHz bands. Direction is evident. You have a clear visual and tracking is simplified.
Errors are present in every field, but we have optimized ours. Your UWB radar development kit is stable, and you will see a deviation of 10 cm. We have been testing this constantly. You will receive stable data, which in turn, increases the reliability of the system. The data you receive is trustworthy and we have secured this.
Having a wide field of view is critical and we accomplished this as well. Like the XETHRU UWB radar, we scan widely. You receive the data with precision as we have accurately positioned multiple antennas to improve coverage. You are allowed to have a view of the entire room; hence nothing is missed.
This technology is versatile and we will show you the limitless possibilities of UWB radar applications. UWB radar system units are capable of meeting numerous needs and solving real-world problems. We open the door to new possibilities.
1. Vital Signs: Hearts gently thump. We hear it. With UWB radar, UWB radar vital sign monitoring becomes effortless. Tracking UWB radar heart rate using radar is simple. The UWB radar sleep monitoring also aids in monitoring health. Health data continuously streams. Moreover, care is enhanced.
2. Human Detection: Individuals shift around you. We perceive. UWB radar for human detection performs exceptionally. UWB impulse radar accurately captures breath detection. Presence data is received. Hence, safety is enhanced immediately. As a result, nuisance alarms are minimized.
3. Through-Wall Imaging: Walls conceal important things. But no longer. Utilizing through-wall radar UWB allows you to penetrate obstacles. With UWB radar imaging, you can identify targets. Peering through walls is possible. Additionally, evacuations are made less risky. Thus, you can quickly locate individuals.
4. Collision Avoidance: Vehicles travel at high speeds. We prevent accidents. With UWB automotive radar, quick reactions are possible. Using UWB short range radar, distance is accurately measured. You successfully maneuver around obstacles. Consequently, safety while driving is improved. In addition, rapid deceleration by vehicles is possible.
5. Secure Access: Doors need to be locked securely. We can open them. NXP UWB radar standards provide safety. You are granted safe access. The UWB radar applications are numerous. Consequently, residential properties are protected. You are the only one who can enter.
Interference compromises your data. We solve this issue. UWB impulse radar is sturdy. Ir-UWB radar cuts through interference. The way how UWB radar works helps prevent jamming. UWB radar possesses reliability. A UWB radar sensor is reliable as well.
Signals dominate the spectrum. We remain inactive. UWB impulse radar shows low energy consumption. Ir-UWB radar is very passive. A specific way how UWB radar works has to do with density. Thus, UWB radar remains uncluttered. A sensor helps in this as well.
Long waves encounter congestion. We deploy shorter ones. A quantum UWB radar chip emits narrow pulses. Collisions can be avoided. We isolate data to keep collision counts minimal. Thus, the signal, the only one that remains functioning, is highly purified. When it's highly diluted, the errors drop significantly.
Signals end mix presenting multiple. Ours remain discrete. A UWB radar system ensures clear time separation. You receive distinct signal gaps. We utilize time divisions. Thus, the data remains unspoiled. You prevent crosstalk. Therefore, system stability is automated.
With rapid deployment everywhere we've come to rely on radios. We play nice. UWB automotive radar shares the domain with ease. You still have WiFi on. We won’t jam it. Thus, maintain smooth network connections avoiding disruptions. We get to coexist.
Impulse channels get quite noisy; however, we manage to analyze those channels too! Your UWB radar development kit checks impulses within a path, while we filter the noise to give you perfect reception. You to receive high quality data, thus boosting performance!
You need an easy, no hassle setup. You get that with quick connecting UWB radar module units. Using a UWB radar development kit with a ready UWB radar sensor and a powerful UWB radar chip helps you out too!
Data transfer through SPI is incredibly fast, and high speed is guaranteed when you connect your UWB radar module to a development kit. Integration is fast and simple with a UWB radar chip, so get to it!
Your UWB radar system needs to output 500mW of power to reach those 1.5km distances. Coverage expands a lot with a boosted signal, linking you to a further distance with strong links.
Hackers are a real threat to all applications. To give you peace of mind, we encrypt packet data, safeguarding your privacy while using UWB radar applications with guaranteed protection.
Static captures small chips, and we mitigate this. Protection costs are included with the UWB radar price. You receive ESD Protective. We are capable of stopping shocks. As a result, the product ESD Protection will greatly increase. You will save money. Thus, the hardware becomes more cost-effective.
Antennas are a must. Go with ours. UWB short range radar requires higher gain. In the UWB automotive radar, we provide you with PCBs. You receive 3dBi gain. Hence, the signals are powerful. You gain distance/signals. In addition, the design simplicity is a bonus.
We answer for you. Questions are a must. One of the most common is, "UWB radar vs FMCW radar?" UWB impulse radar is different. UWB radar vital sign monitoring is very real. You will see it for yourself. UWB radar heart rate works. We provide you with precision UWB radar sensor units.
In this case, we are talking continuous waves, and we on the other hand, pulse. UWB radar vs FMCW radar is the more unique answer. UWB impulse radar, by rule, does indeed use gaps. Therefore, you are granted the benefit of better timing. Thus, precision will always be higher. It's easy to see the difference. Additionally, it is much less complex.
Breaths are the small movements we tend to see. UWB impulse radar detects a chest. Therefore, UWB radar vital sign monitoring works with UWB radar. UWB radar heart rate is, by rule, clear. Hence, tracking the health of the user is possible, and you'll be pleased to know, you will stay safe, thus health checks are simple.
Precision. Radar measures distance, UWB radar measures distance accurately. When it comes to UWB short range radar units, the resolution is extremely high at 10cm. You can even see details and empty spaces, thus negating any errors opportunities.
Walls are solid and thick. Concrete doesn't pose any problems. Ir-UWB radar can easily penetrate thick walls. This allows you to easily find and identify people inside the structure. Hence, through-wall radar UWB aids in rescues. Obstructions are no hindrance.
We have several radio communication bands allocated to UWB. Each UWB radar system is assigned a particular band. Your UWB radar chip will likely cover around 6.5GHz and have a bandwidth of around 500MHz. This will allow fairly quick data transfer and good system performance.
The benefits of these sensors, while advanced, are very clear as is their high precision, especially in the complex tracking problems UWB radar module units address. You are able to gain the advantage of through-wall imaging, solidifying your contact’s security.
You can eliminate signal interference and save energy. Visit G-NiceRF to begin your integration process. Reliable products are at your fingertips. We pride ourselves in helping you innovate seamlessly.
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