ensun logo
Locations
Company type
Result types
Industries
Employees
Founding year
Petsys Electronics Logo

Petsys Electronics

ASICs for radiation detectors Large scale integration for SiPMs and APDs Amplifiers, discriminators, TDCs and ADCs Low-noise and low-power High input rate and output bandwidth. Complete detector modules for PET scanners LYSO crystals SiPM and APD arrays Frontend electronics and bias regulation Digital high-speed interface. Electronics for radiation detectors Low noise frontend systems Data acquisition electronics Scalable to several ten thousand channels.

Quick overview

Oeiras, Portugal

Founded in 2013

1-10 Employees

Additional information

Working industry

Medical

Type of company

Manufacturer

Ownership structure

Privately Held

Locations

1 Headquarter

Number of products

7 Products

Specialised areas

Biotechnology, Electrical Distribution, Electronics, Information Technology, Manufacturing, Medical, Software

Products & services of Petsys Electronics

Petsys Electronics offers a wide range of products and services

Product: PETsys SiPM Readout System

Product

PETsys SiPM Readout System

Go to product >

Product: PETsys TOF ASIC E. KIT

Product

PETsys TOF ASIC E. KIT

Go to product >

Product: PETsys TOFPET2 ASIC

Product

PETsys TOFPET2 ASIC

Go to product >

Product: PETsys TOF Front-End Module (Readout System)

Product

PETsys TOF Front-End Module (Readout System)

Go to product >

Product: PETsys  TOF FEB / D board (Readout System)

Product

PETsys TOF FEB / D board (Readout System)

Go to product >

Product: PETsys TOF DAQ Board (Readout System)

Product

PETsys TOF DAQ Board (Readout System)

Go to product >

Product: Petsys Electronics Products

Product

Petsys Electronics Products

Go to product >

ESG score estimation

An estimation about the ESG values based on digital data and signals. Important: The ESG scores are only based on information about the country, not the actual company itself

Country:

Portugal


Overall risk estimation:

Very low


ESG country scores

The ESG Data of countries are based on public sources

Environment

A

Grade (A-E)

View details

Social

A

Grade (A-E)

View details

Governance

A

Grade (A-E)

View details

Headquarter of Petsys Electronics

Petsys Electronics operates in 1 country around the world

City: Oeiras

State: Lisbon

Country: Portugal

Locations of Petsys Electronics

Get an overview of the locations of Petsys Electronics

Location

Country

State

City

Headquarter

Portugal

Lisbon

Oeiras

Frequently asked questions (FAQ) about Petsys Electronics

Some frequent questions that have been asked about Petsys Electronics

The company headquarter of Petsys Electronics is located in Oeiras, Lisbon, Portugal. It's worth noting, that the company may have more locations

As of the latest available information Petsys Electronics has around 1-10 employees worldwide.

Petsys Electronics was founded in 2013

The company Petsys Electronics has it's main focus in the industries of Medical

Competitors of Petsys Electronics

Check out some interesting alternative companies to Petsys Electronics

Integrated Detector Electronics SA's Logo

Integrated Detector Electronics SA

Oslo, Norway

11-50 Employees

1992

IDEAS has a well recognized catalog of front end ICs for radiation detection in space and on ground. IDEAS has over 20 years experience in developing radiation hardened mixed-signal ASICs.

Pi Imaging Technology's Logo

Pi Imaging Technology

Neuchâtel, Switzerland

1-10 Employees

2018

We are hiring talented individuals with a strong motivation to develop the next generation single-photon detector technology. We provide various single-photon detectors based on single-photon avalanche diodes (SPADs), covering a wide variety of applications from confocal scanning microscopy to high-speed imaging. We enable our partners to introduce innovative products. The end-users of these products perform cutting-edge science, develop better products and services in life science and quantum information. The core of it is a single-photon avalanche diode (SPAD) designed in standard semiconductor technology. We also offer services to create custom detectors. Pi Imaging Technology has a booth in Focus on Microscopy 2024. Come and check-out our newest products SPADλ and the red-optimized SPAD23.

Advanced Silicon's Logo

Advanced Silicon

Lausanne, Switzerland

11-50 Employees

2002

We are a team of world-class experts developing and delivering Analog, Mixed-signal, and High-Voltage Integrated Circuits. We develop our products with the latest technologies available and create our own by investing continuously in our internal R&D roadmap and trough a close cooperation with the Swiss Federal Institute of Technology (EPFL). We develop our products with the latest technologies available or create our own by investing continuously in our internal R&D roadmap and through advanced research projects with the Swiss Federal Institute of Technology. We provide ICs for direct and indirect photon sensing detectors in X-RAY panels. We are excited by the new JV with ADIS SA for the development and deployment of Computer Vision systems for hospitals based on our ATICS technology. We are proud and pleased to announce the spin-off of our System Electronics business activity into the newly created entity Elix Systems. We are thrilled to present our cutting-edge Computer-vision system for 3D near-field interactions “Airtouch”. Our company is leading in the fields of Photonic Detectors, Flat Panel Displays, and Capacitive Touch Screens.

XGLab S.R.L.'s Logo

XGLab S.R.L.

Milan, Italy

11-50 Employees

2009

XGLab is a leading provider of innovative readout electronics for radiation detectors and instrumentation for X and Gamma ray applications. XGLab was started up in 2009 as a spin-off company of Politecnico di Milano, the university where Emilio Gatti – the inventor with Pavel Rehak of the Silicon Drift Detectors (SDD) – held a full professorship in Electronics. SDD, HpGe), XGLab is now introducing DANTE, the Digital Pulse Processor for high count rate spectroscopy. XGLab’s mission is to develop innovative readout solutions to continuously challenge the state-of-the-art of radiation detection. XGLAB offers a unique selection of Integrated Circuits for a wide range of Radiation Detectors (SDD, HpGe, Si-Pin, Si-Strips, etc.). XGLAB develop cutting-edge instrumentation for Material Research (Synchrotrons, Accelerators, Academia) and High-end Industrial applications. XGLAB offers Custom ASICs development from the Schematic and Layout design to Production, Wafer-level testing and long-term supply. XGLAB develops custom analytical instrumentation (XRF, XRD, Raman, NIR) for applications like Art & Conservation, Mining or Material Research in general.

Amptek, Inc.'s Logo

Amptek, Inc.

Bedford, United States

51-100 Employees

1977

The FAST SDD® represents Amptek’s highest performance silicon drift detector (SDD), capable of count rates over 1,000,000 CPS (counts per second) while maintaining excellent resolution. Amptek has developed a 70 mm² FAST SDD® Detector in a TO-8 package. Amptek offers a complete line of OEM detectors, preamplifiers, digital processors, and power supplies, and can work with you to help develop custom solutions unique to your needs. Amptek’s Si-PIN Detectors are still the workhorse of the XRF industry because of the combination of good performance and low cost. Amptek is a high technology company and a recognized world leader in the design and manufacture of state-of-the-art nuclear instrumentation for the satellite, x-ray and gamma ray detection, laboratory, analytical, and portable instrumentation industries. The XRA-700 is a multichannel X-ray spectroscopy system, with seven high-performance X-ray detectors with low noise preamplifiers, plus the control unit with power supplies and cooling. Compromising nothing in performance, the MCA-8000D is a low power, light weight instrument which is exceptionally versatile and easy to use. The process of emissions of characteristic x-rays is called “X-ray Fluorescence,” or XRF.

Electro Optical Innovation LLC's Logo

Electro Optical Innovation LLC

Village of Briarcliff Manor, United States

1-10 Employees

2011

EOI is a well-equipped small technical house whose mission is to enable our customers to produce advanced measurement products for their customers. As technology developers we find imaginative solutions to hard measurement problems in very many areas of optics, electronics, photonics, and mixed-technology systems, both for customers and for our own proprietary developments, as well as doing extensive expert witness work in optics and electronics cases. Internal DevelopmentsIn the last year or two we've been doing a lot of work aimed at replacing photomultiplier tubes (PMTs) in instruments, using avalanche photodiodes (APDs) and silicon photomultipliers (SiPMs). These devices are arrays of single-photon detectors, so they're also known as multi-pixel photon counters (MPPCs). Our main application areas include biomedical instruments such as flow cytometers and microplate readers, which have to measure low light levels very precisely but don't need the ultralow dark current of PMTs. (Follow-on articles will talk about our SiPM work in airborne lidar and SEM cathodoluminescence, as well as on improving the performance of actual PMTs.)PMTs have been around since the 1930s, and remain the undisputed champs for the very lowest light levels. We love PMTs, but we have to admit that they're delicate and not that easy to use—they tend to be bulky, they need high voltage, and they need regular replacement. Most of all, PMTs are very expensive. In Part 1, we discussed ways to get better measurements by improving the signal to noise ratio (SNR), and saw that although it was often a win to measure more slowly and use lowpass filters, going too far actually makes things worse, because of the way noise concentrates at low frequency. Here we introduce a more sophisticated approach that generally works better: the lock-in amplifier. In building an ultrasensitive instrument, we're always fighting to improve our signal-to-noise ratio (SNR). The SNR is the ratio of signal power to noise power in the measurement bandwidth, and is limited by noise in the instrument itself and the noise of any background signals, such as the shot noise of the background light or the slight hiss of a microphone. I can often be found on the Usenet groups sci.electronics.design and sci.optics. (There's not a lot of activity at sci.optics these days, but there are still folks listening who can help.).