01
DIRECT,EFFICIENT SIGNAL PATH
01
DIRECT,EFFICIENT SIGNAL PATH
TRADITIONAL SENSORS
Light
Analog Signal
Digital Converter
Computer
VS
IQP'S SENSOR
Light
Digital Signal
Computer
02
Photon-Level
Gain
IQP developed and patented an innovative Low Photon Flux Sensor, based on new physical principles. Having an internal gain of 10^6 it can capture a single photon of light, thus reaching the maximum physically available sensitivity.
03
Tailored Performance
The CMOS architecture provides extensive customization options. We will work closely with you to tailor sensors to your specific configurations and application requirements.
ENGINEERING ADVANTAGES
ultra sensitive
ultra sensitive
ultra sensitive
ultra sensitive
ultra sensitive
ultra sensitive
OUR PRODUCT:
The Next Generation Optical Sensor
Photon-level precision, Built on CMOS
IQP’s solid-state sensors detect the faintest traces of light—down to individual photons—making them powerful building blocks for the next generation of LiDAR, medical imaging, robotics, and advanced optics.
Datasheet Download
LiDAR
Night Vision
Satellites
Defense
Medical Products
Biotech Imaging
High Energy Physics
Light Detection
Low Light Imaging
OUR PRODUCT:
The Next Generation
Optical Sensor
Photon-level precision, Built on CMOS
IQP’s solid-state sensors detect the faintest traces of light—down to individual photons—making them powerful building blocks for the next generation of LiDAR, medical imaging, robotics, and advanced optics.
Download Datasheet
LiDAR
Night Vision
Satellites
Defense
Medical Products
Biotech Imaging
High Energy Physics
Light Detection
Low Light Imaging
OUR PRODUCT:
The Next Generation
Optical Sensor
Photon-level precision, Built on CMOS
IQP’s solid-state sensors detect the faintest traces of light—down to individual photons—making them powerful building blocks for the next generation of LiDAR, medical imaging, robotics, and advanced optics.
Datasheet Download
LiDAR
Night Vision
Satellites
Defense
Medical Products
Biotech Imaging
High Energy Physics
Light Detection
Low Light Imaging
Recognized And Proven
IQP was named a CES Innovation Awards 2024 Finalist.
Our technology is also under independent evaluation with Bertrandt to confirm performance against established industry benchmarks.
Recognized And Proven
IQP was named a CES Innovation
Awards 2024 Finalist.
Our technology is also under independent evaluation with Bertrandt to confirm performance against established industry benchmarks.
Recognized And Proven
IQP was named a CES Innovation
Awards 2024 Finalist.
Our technology is also under independent evaluation with Bertrandt to confirm performance against established industry benchmarks.
why SiPm
outperforms Traditional
sensors
Most optical sensors can only tell you whether light is present or not—like a switch that’s either on or off. SiPMs go further: they measure the brightness of the signal, capturing not just that light arrived, but how much. This ability unlocks sharper imaging, longer range, and far greater accuracy in real-world conditions.
Optimized for lidar, 905 nm and beyond
IQP’s sensors are purpose-built to excel at the wavelengths LiDAR systems actually use, with maximum sensitivity. By designing from the photon up, the result is cleaner, more accurate signals that hold up in the toughest environments. And in autonomy, clarity at the sensor is non-negotiable because no algorithm can repair bad input; precision begins with the sensor.
why SiPm
outperforms Traditional
sensors
Most optical sensors can only tell you whether light is present or not—like a switch that’s either on or off. SiPMs go further: they measure the brightness of the signal, capturing not just that light arrived, but how much. This ability unlocks sharper imaging, longer range, and far greater accuracy in real-world conditions.
Optimized for lidar, 905 nm and beyond
IQP’s sensors are purpose-built to excel at the wavelengths LiDAR systems actually use, with maximum sensitivity. By designing from the photon up, the result is cleaner, more accurate signals that hold up in the toughest environments. And in autonomy, clarity at the sensor is non-negotiable because no algorithm can repair bad input; precision begins with the sensor.
why SiPm
outperforms Traditional
sensors
Most optical sensors can only tell you whether light is present or not—like a switch that’s either on or off. SiPMs go further: they measure the brightness of the signal, capturing not just that light arrived, but how much. This ability unlocks sharper imaging, longer range, and far greater accuracy in real-world conditions.
Optimized for lidar, 905 nm and beyond
IQP’s sensors are purpose-built to excel at the wavelengths LiDAR systems actually use, with maximum sensitivity. By designing from the photon up, the result is cleaner, more accurate signals that hold up in the toughest environments. And in autonomy, clarity at the sensor is non-negotiable because no algorithm can repair bad input; precision begins with the sensor.
key performance features
01 Single-Photon Sensitivity
Detect the faintest signals.
02 Wide Dynamic Range
From single to multiple photons.
03 Magnetic Field Resistant
Stable in challenging environments.
04 Fast Timing
Sub-nanosecond resolution.
05 Digital Output
Direct, low-noise readout.
06 CMOS Platform
Scalable, compact, and
cost-efficient.
key performance features
01 Single-Photon Sensitivity
Detect the faintest signals.
02 Wide Dynamic Range
From single to multiple photons.
03 Magnetic Field Resistant
Stable in challenging environments.
04 Fast Timing
Sub-nanosecond resolution.
05 Digital Output
Direct, low-noise readout.
06 CMOS Platform
Scalable, compact, and
cost-efficient.
Iqp Sensor Intro
Single Photon
Detection
Multi - Photon
Detection
CMOS
Architecture
High Time
Performance
Magnetic
Resistance
Digital Date
Output
ENGINEERING ADVANTAGES
01
Tailored Performance
The CMOS architecture provides extensive customization options. We will work closely with you to tailor sensors to your specific configurations and application requirements.
02
Photon-Level
Gain
IQP developed and patented an innovative Low Photon Flux Sensor, based on new physical principles. Having an internal gain of 10^6 it can capture a single photon of light, thus reaching the maximum physically available sensitivity.
03
DIRECT,
EFFICIENT SIGNAL PATH
TRADITIONAL SENSORS
Light
Analog Signal
Digital Converter
Computer
VS
IQP'S SENSOR
Light
Digital Signal
Computer
ENGINEERING ADVANTAGES
01
Tailored Performance
The CMOS architecture provides extensive customization options. We will work closely with you to tailor sensors to your specific configurations and application requirements.
02
Photon-Level
Gain
IQP developed and patented an innovative Low Photon Flux Sensor, based on new physical principles. Having an internal gain of 10^6 it can capture a single photon of light, thus reaching the maximum physically available sensitivity.
03
DIRECT,
EFFICIENT SIGNAL PATH
TRADITIONAL SENSORS
Light
Analog Signal
Digital Converter
Computer
VS
IQP'S SENSOR
Light
Digital Signal
Computer
Single Pixel
Array
of Pixels
Evaluation
Board
Data sheet
dOWNLOAD
key performance features
Single-Photon Sensitivity
Detect the faintest signals.
Wide Dynamic Range
From single to multiple photons.
Magnetic Field Resistant
Stable in challenging environments.
Fast Timing
Sub-nanosecond resolution.
Digital Output
Direct, low-noise readout.
CMOS Platform
Scalable, compact, and
cost-efficient.