The IDE3466 (also VATA466) is an application specific integrated circuit (ASIC), which has been designed for the p-side readout of silicon detectors for charged particles. The chip has 36 charge sensitive pre-amplifiers (CSA), programmable coincidence logic and 36 counters, and one analogue multiplexer output. The counters count charge pulses depending on the combination (coincidences or anti-coincidences) and charge magnitude. The counters can be read out from the ASIC by an external controller. Out of the 36 channels, 32 have a high-gain with saturation at 2.6 pC, and 4 have a low gain with saturation at 26 pC. The chip is optimized for positive input charges, i.e., it is suitable for the readout and triggering of the charge from the p-side of silicon sensors.
In the high-gain channels, the charge sensitive pre-amplifier is connected to one slow shaper of 1-μs shaping time and two fast shapers of 250-ns shaping time, while the low-gain channels have only one 1-μs slow shaper and one 250-ns fast shaper. Each fast shaper output is connected to a comparator, which triggers when the pulse shape exceeds the reference level that can be programmed by 10-bit DACs. The two fast shapers and comparators of the high-gain channels are designed to discriminate charges in the range from 2.2 fC to 100 fC and 2.2 fC to 1 pC, respectively. The fast shapers and comparators of the low-gain channels are designed to discriminate charges in the range from 100 fC to 26 pC. Each comparator output is a mono-stable, which can be masked and feeds to the coincidence logic. Read-out of the slow shapers is also possible through a serialised analogue output.
The chip requires positive voltage supplies (+1.8V and +3.3V) and one reference bias current to generate its internal biases. The total power consumption is less than 180 mW, depending on settings and readout rate. The chip has a serial peripheral interface (SPI) for the data readout and programming internal settings. All amplifier inputs are protected by diodes against over-voltage and electro-static discharge (ESD). The chip is SEU/SEL radiation hardened by design and manufacture.
We only sell the IDE3466 technology with an IDEAS’ electronic readout development system. Please contact us for more information.
Keywords: JUICE, RADEM, NORM
IEEE NSS/MIC 2017 – VATA466 Poster
SPIE Astro 2016 – VATA466 Poster
T. A. Stein, et al., “Front-end readout ASIC for charged particle counting with the RADEM instrument on the ESA JUICE mission,” Proc. SPIE 9905, Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray, 990546 (19 July 2016). DOI: 10.1117/12.2231901; http://dx.doi.org/10.1117/12.2231901
| Detectors | Silicon (Si) |
| Detectors | Silicon (Si) |
| Application | Counting |
| Number of inputs | 32 High Gain, 4 Low Gain |
| Input charge range | 0 fC to 100 fC, 0-2.6 pC, 0-26 pC |
| Shaping time | 1 µs (VA), 250ns (TA) |
| Nominal capacitive load | 10 pF |
| Equivalent Noise Charge (ENC) | 42000e (worst case maximum) |
| Trigger threshold | Programmable by 10-bit DAC |
| Trigger outputs | Common trigger for all channels |
| Outputs | SPI readout of coincidence counters and multiplexed pulse height |
| Test and calibration | Internal calibration circuit |
| Radiation hardness | 100krad TID, SEL immune up to 81.6 MeV·cm2/mg |
배송안내
배송 지역 | 대한민국 전지역
배송비 | 2,500원 (50,000원 이상 결제시 무료배송)
배송기간 | 주말 공휴일 제외 2~5일
- 모든 배송은 택배사 사정으로 지연될 수 있습니다.
교환 및 반품 안내
- 고객 변심으로 인한 교환/반품은 상품 수령 후 14일 이내 가능합니다.
- 고객 귀책 사유로 인한 반품의 경우 왕복 택배비는 고객 부담입니다.
- 반품접수 기한이 지난 경우, 제품 및 패키지 훼손, 사용 흔적이 있는 제품은 교환/반품이 불가합니다.
The IDE3466 (also VATA466) is an application specific integrated circuit (ASIC), which has been designed for the p-side readout of silicon detectors for charged particles. The chip has 36 charge sensitive pre-amplifiers (CSA), programmable coincidence logic and 36 counters, and one analogue multiplexer output. The counters count charge pulses depending on the combination (coincidences or anti-coincidences) and charge magnitude. The counters can be read out from the ASIC by an external controller. Out of the 36 channels, 32 have a high-gain with saturation at 2.6 pC, and 4 have a low gain with saturation at 26 pC. The chip is optimized for positive input charges, i.e., it is suitable for the readout and triggering of the charge from the p-side of silicon sensors.
In the high-gain channels, the charge sensitive pre-amplifier is connected to one slow shaper of 1-μs shaping time and two fast shapers of 250-ns shaping time, while the low-gain channels have only one 1-μs slow shaper and one 250-ns fast shaper. Each fast shaper output is connected to a comparator, which triggers when the pulse shape exceeds the reference level that can be programmed by 10-bit DACs. The two fast shapers and comparators of the high-gain channels are designed to discriminate charges in the range from 2.2 fC to 100 fC and 2.2 fC to 1 pC, respectively. The fast shapers and comparators of the low-gain channels are designed to discriminate charges in the range from 100 fC to 26 pC. Each comparator output is a mono-stable, which can be masked and feeds to the coincidence logic. Read-out of the slow shapers is also possible through a serialised analogue output.
The chip requires positive voltage supplies (+1.8V and +3.3V) and one reference bias current to generate its internal biases. The total power consumption is less than 180 mW, depending on settings and readout rate. The chip has a serial peripheral interface (SPI) for the data readout and programming internal settings. All amplifier inputs are protected by diodes against over-voltage and electro-static discharge (ESD). The chip is SEU/SEL radiation hardened by design and manufacture.
We only sell the IDE3466 technology with an IDEAS’ electronic readout development system. Please contact us for more information.
Keywords: JUICE, RADEM, NORM
IEEE NSS/MIC 2017 – VATA466 Poster
SPIE Astro 2016 – VATA466 Poster
T. A. Stein, et al., “Front-end readout ASIC for charged particle counting with the RADEM instrument on the ESA JUICE mission,” Proc. SPIE 9905, Space Telescopes and Instrumentation 2016: Ultraviolet to Gamma Ray, 990546 (19 July 2016). DOI: 10.1117/12.2231901; http://dx.doi.org/10.1117/12.2231901
| Detectors | Silicon (Si) |
| Detectors | Silicon (Si) |
| Application | Counting |
| Number of inputs | 32 High Gain, 4 Low Gain |
| Input charge range | 0 fC to 100 fC, 0-2.6 pC, 0-26 pC |
| Shaping time | 1 µs (VA), 250ns (TA) |
| Nominal capacitive load | 10 pF |
| Equivalent Noise Charge (ENC) | 42000e (worst case maximum) |
| Trigger threshold | Programmable by 10-bit DAC |
| Trigger outputs | Common trigger for all channels |
| Outputs | SPI readout of coincidence counters and multiplexed pulse height |
| Test and calibration | Internal calibration circuit |
| Radiation hardness | 100krad TID, SEL immune up to 81.6 MeV·cm2/mg |
배송안내
배송 지역 | 대한민국 전지역
배송비 | 2,500원 (50,000원 이상 결제시 무료배송)
배송기간 | 주말 공휴일 제외 2~5일
- 모든 배송은 택배사 사정으로 지연될 수 있습니다.
교환 및 반품 안내
- 고객 변심으로 인한 교환/반품은 상품 수령 후 14일 이내 가능합니다.
- 고객 귀책 사유로 인한 반품의 경우 왕복 택배비는 고객 부담입니다.
- 반품접수 기한이 지난 경우, 제품 및 패키지 훼손, 사용 흔적이 있는 제품은 교환/반품이 불가합니다.
