Your search keyword '"Kmon, Piotr"' showing total 5 results

1. UFERI—Ultra-Fast Energy Resolved Imager for Next Generation Synchrotron Experiments

Author

Andra, Marie, Dawiec, Arkadiusz, Kleczek, Rafal, Kmon, Piotr, Menneglier, Claude, Orsini, Fabienne, Otfinowski, Piotr, and Grybos, Pawel

Abstract

A new single photon-counting ASIC prototype called UFERI (Ultra-Fast Energy Resolved Imager) with a matrix of $42\times 42$ pixels of $75~\mu $ m pitch is developed by the Detector Group of the SOLEIL synchrotron and the Microelectronics Group from AGH University of Krakow, in preparation for the upcoming upgrade of the SOLEIL synchrotron to a fourth-generation facility. The detector is dedicated to pseudo-Laue diffraction applications in intense, pink beams at photon energies between 5 to 30 keV. With its three thresholds and very small offset spread from pixel to pixel of about 1.1 mV, UFERI can discriminate three energy levels while its short dead time ensures a high count rate capability of up to 6 Mcounts/s/pix (10% count rate loss). To keep both, a low noise and a high count rate operation, a front-end amplifier’s feedback capacitor discharge technique is implemented on-chip, enabling high-speed chip operation with an Equivalent Noise Charge (ENC) of 86 e- rms. The UFERI chip can operate with detector signals of both polarities (holes and electrons) and consumes $42~\mu $ W/pixel. In this publication, we present a description of the ASIC’s architecture as well as characterization results. The energy calibration, threshold dispersion, gain spread, as well as noise and count rate performance of the UFERI prototype are presented.

Published

2025

2. Single Photon Counting Readout IC With 44 e− rms ENC and 5.5 e− rms Offset Spread With Charge Sensitive Amplifier Active Feedback Discharge

Author

Kleczek, Rafal, Kmon, Piotr, Maj, Piotr, Szczygiel, Robert, Zoladz, Miroslaw, and Grybos, Pawel

Abstract

The paper presents the design and measurements of a low noise integrated circuit in a CMOS 130 nm for the readout of a hybrid pixel detector operating in a single photon counting mode. A core of IC contains a matrix of $128\times256$ square shaped pixels of $75~\mu \text{m}$ pitch. Each readout pixel consists of a charge sensitive amplifier (CSA), a shaper, two discriminators, and two 14-bit counters. We present the novel CSA feedback circuitry with an effective resistance of 0.6 $\text{G}\Omega $ and sets of switches, which allows low noise operation and fast return to the CSA output baseline at the same time providing the possibility of operation with a higher flux of input pulses. The measured equivalent noise charge of IC (bump-bonded to silicon sensor) is only 44 $\text{e}^{-}$ rms at 15°C, the offset spread is 5.5 $\text{e}^{-}$ rms and the energy resolution is FWHM = 380 eV @ 8keV, which is currently the best result in single photon counting pixel detectors. The hybrid pixel detector can register up to 107 million photons/mm2 per second, while the power consumption per single pixel is about $42~\mu \text{W}$ .

Published

2023

3. 4 Gbps Scalable Low-Voltage Signaling (SLVS) transceiver for pixel radiation detectors

Author

Romaniuk, Ryszard S., Linczuk, Maciej, Kadlubowski, Lukasz A., and Kmon, Piotr

Published

2017

4. 64 Channel Neural Recording Amplifier with Tunable Bandwidth in 180 nm CMOS Technology

Author

Grybos, Pawel, Kmon, Piotr, Zoladz, Miroslaw, Szczygiel, Robert, Kachel, Maciej, Lewandowski, Marian, and Blasiak, Tomasz

Abstract

64 Channel Neural Recording Amplifier with Tunable Bandwidth in 180 nm CMOS TechnologyThis paper presents the design and measurements of low-noise multichannel front-end electronics for recording extra-cellular neuronal signals using microelectrode arrays. The integrated circuit contains 64 readout channels and is fabricated in CMOS 180 nm technology. A single readout channel is built of an AC coupling circuit at the input, a low-noise preamplifier, a band-pass filter and a second amplifier. In order to reduce the number of output lines, the 64 analog signals from readout channels are multiplexed to a single output by an analog multiplexer. The chip is optimized for low noise and good matching performance and has the possibility of pass-band tuning. The low cut-off frequency can be tuned in the 1 Hz - 60 Hz range while the high cut-off frequency can be tuned in the 3.5 kHz - 15 kHz range. For the nominal gain setting at 44 dB and power dissipation per single channel of 220 µW, the equivalent input noise is in the range from 6 µV - 11 µV rms depending on the band-pass filter settings. The chip has good uniformity concerning the spread of its electrical parameters from channel to channel. The spread of the gain calculated as standard deviation to mean value is about 4.4% and the spread of the low cut-off frequency set at 1.6 Hz is only 0.07 Hz. The chip occupies 5×2.3 mm2of silicon area. To our knowledge, our solution is the first reported multichannel recording system which allows to set in each recording channel the low cut-off frequency within a single Hz with a small spread of this parameter from channel to channel. The first recordings of action potentials from the thalamus of the rat under urethane anesthesia are presented.

Published

2011

5. ASICs in nanometer and 3D technologies for readout of hybrid pixel detectors

Author

Szczepanski, Pawel, Kisiel, Ryszard, Romaniuk, Ryszard S., Maj, Piotr, Grybos, Pawel, Kmon, Piotr, and Szczygiel, Robert

Published

2013