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The data acquisition software runs under Windows OS with and easy graphical
user interface. The software written in LabVIEW and is also provided as source code, allowing the advanced user to customize it. 1-unit wide, 6U VME64 board is provided with firmware and software |
Digital Pulse Processor| Applications: High speed timing, high time resolution, high counting, waveform discrimination
(n/Á) Detector: Plastic, LaBr3, liquid scintillator, wire chamber, etc. This digitizer digitizes PMT and MPPCk directly or high-speed pulses from a high-speed preamplifier with a high-speed ADC. The digital pulse processor developed by TechnoAP acquires time and energy information by digital CFD and QDC. In addition, waveform fitting enables high temporal resolution based on sampling interpolation. Neutron/gamma radiation discrimination PSD function and LIST-WAVE waveform information are also available as options. Option: LIST-WAVE  Function: DPP: CFD, TDC, QDC PSD etc. Mode: Histogram, List and Waveform Communication I/F: Gigabit Ethernet, TCP/IP Output: 1Mcps or more per channel Multi-board synchronization features Algorithms for Digital Pulse Processing (DPP) Pulse Shape Discrimination (PSD) |
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 VME  Desktop |
APV8108-14 APU8108-14 |
8 ch. Time resolution: 230 ps, Na-22 @ 511 keV, LaBr3 vs LaBr3 |
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VME Desktop |
APV8104-14 APU8104-14 |
4 ch. Time resolution: 230 ps, Na-22 @ 511 keV, LaBr3 vs LaBr3 Analog gain adjustable |
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VME Desktop |
APV8516-14 APU8516-14 |
16 ch. Time resolution: 230 ps, Na-22 @ 511 keV, LaBr3 vs LaBr3 |
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VME Desktop |
APV8508-14 APU8508-14 |
8 ch. Time resolution: 230 ps, Na-22 @ 511 keV, LaBr3 vs LaBr3 |
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VME Desktop |
APV82516-14 APU82516-14 |
16 ch. Time resolution: 230 ps, Na-22 @ 511 keV, LaBr3 vs LaBr3 |
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Digital Signal ProcessorSuitable for Semiconductor Detector
| Applications: High resolution digital signal processing for HPGe Detectors: Multi-element HPGe, Si, SDD, CdTe, CZT, etc. @ *Scintillation detectors require a charge-sensitive preamplifier. The signal from the charge-sensitive preamplifier is trapezoidally filtered by a digital signal processor to obtain energy information. High resolution ADC is used to minimize noise to the utmost limit and achieve high resolution. Waveform information RISE-WAVE is also included as an option and can be used for waveform analysis of multi-element HPGe detectors, etc. Functions: DSP: Trapezoidal Filter, Base Line Restorer, Pile-up Rejector, CFD, etc. Mode: Histogram, List, Waveform Options: RISE-WAVE Communication I/F: Gigabit Ethernet, TCP/IP Output: 100 kcps and more per channel Waveform shaping by digital signal processor (DSP) |
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VME Desktop |
APV8032 APU8032 |
32 ch. Energy resolution: 1.7 keV @ 1.33 MeV, HPGe |
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VME Desktop |
APV8016A APU8016A |
16 ch. Energy resolution: 1.7 keV @ 1.33 MeV, HPGe |
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VME Desktop |
APV8008A APU8008A |
8 ch. Energy resolution: 1.7 keV @ 1.33 MeV, HPGe |
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 NIM  Desktop |
APN508 APU508 |
8 ch. Energy resolution: 1.7 keV @ 1.33 MeV, HPGe |
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Hybrid Digital Spectrum Analyzer| Image | Model | Features | Reference |
 VME Desktop |
APV8M24 APU8M24 |
2 ch. for anode signal upper row ADC 1Gsps, 14-bit build in 4 ch. for output preamp signal lower row ADC 62.5Msps, 14-bit build in Communication I/F: Giga bit Ethernet TCP/IP Energy resolution: 1.7 keV @ 1.33 MeV, HPGe Output: 100 kcps and more per channel |
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VME Desktop |
APV8M44 APU8M44 |
4 ch. for anode signal upper row ADC 500Msps, 14-bit build in 4 ch. for output preamp signal lower row ADC 62.5Msps, 14-bit build in Communication Interface: Giga bit Ethernet TCP/IP Energy resolution: 1.7 keV @ 1.33 MeV, HPGe Output: 100 kcps and more per channel |
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Multi Channel AnalyzerAdvanced processing algorithms can be easily adapted to different detectors and application ensuring effective data analysis even high count rates.
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VME Desktop |
APV8216 APU8216 |
16 ch. Throughput: 200kcps/ch. or more |
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VME Desktop |
APV8816AMP APU8816AMP |
16 ch. Equipped with spectroscopic amplifier |
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VME Desktop |
APV8208 APU8208 |
8 ch. Throughput: 200kcps/ch. or more |
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High counting DSP for XAFS measurementApplication: High count SDD transistor reset preamplifier compatible, ultra high count digital signal processing
Detector: Silicon Drift Detector, Multi-element HPGe
Feature: A circuit that optimizes the processing of the transistor reset preamplifier connected to the SDD is installed to maintain high throughput even at ultra-high counts. Energy information is acquired by performing Trapezoidal Filter with a digital signal processor. The high resolution ADC is used to suppress noise to the maximum and achieve high resolution.
DSP: Baseline Restorer, Pileup Rejcetor, CFD etc
Conversion gain: Up to 4 k channels
Measurement mode: Histogram, List and Waveform
Communication Interface: Gibabit Ethernet
Option1: Quick-Scan
Option2: Fast-SCA
Option3: Count upper limit extension
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Digital SpectrometerApplication: Integrated high-voltage power supply, preamplifier power supply, and digital signal processor
Detector: Multi-element HPGe, Si, CdTe, CZT etc.
*A charge-sensitive preamplifier is required to input the signal from the scintillation detector.
Feature: The high-voltage power supply can be remotely controlled by the application, improving the usability of the user. The polarity can be switched to correspond to any detector. It is a low cost product that is very small and easy to carry.
ADC: 100MHz, 14-bit
DSP: Baseline Restorer, Pileup Rejecter, CFD, etc.
Conversion gain: Up to 8 k channels
Measurement mode: Histogram, list, waveform
Communication I/F: Ethernet
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NIM  Desktop |
APN101 APU101 |
1 ch. Multi-function digital spectrometer Integrated high-voltage power supply, preamplifier power supply, and MCA |
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High Voltage Power Supply and Preamplifier Power Supply Functional parameters can be programmed and monitored via Ethernet.
It is provided with a control software runs under Windows OS with and easy graphical user interface.
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APV3304 | 4 ch. output independently controllable HV channels on SHV coaxial connectors Available with either positive, negative or mixed polarity Provide voltage up to }5 kV Ripple: 20mVpp @ +5 kV Remote control via Ethernet |
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APV3302 | 2 ch. output independently controllable HV channels on SHV coaxial connectors Available with either positive, negative or mixed polarity Provide voltage up to }5 kV Ripple: 20mVpp @ +5 kV Remote control via Ethernet |
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APV3008 | 8 ch. output High voltage power supply board for MPPC and Temperature compensation function for each CH. |
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APV3018 | 8 ch. output independently controllable HV channels on SHV coaxial connectors Available with either positive, negative or mixed polarity Provide voltage up to }1 kV Ripple: 0.01 % Vpp @ + 1kV Remote control via Ethernet |
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APV4004 | 4 ch. output for preamplifier power supply 4 Female DB9 connectors with }12 V, }24 V each |
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VME powered crates| Image | Model | Features | Reference |
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APV9007 | 7 slots 6U x 160 mm VME modules +5 V: 60.0 A +12 V: 8.5 A -12 V: 4.3 A 167(W) x 311(H) x 400(D) mm3 |
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APV9020 | 20 slots 6U x 160 mm VME modules +5 V: 60.0 A +12 V: 13.0 A -12 V: 13.0 A 481(W) x 311(H) x 400(D) mm3 |
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APV9003R | 3 slots (VME 6U size) 19" rack storage horizontal |
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USB seriesData transfer and power supply by USB
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APG7400A | 4 ch. 16k digital MCA Mode: PHA, LIST, MCS, COINCIDENCE Function: GATE input , VETO input Deadtime: 1.5 micro seconds |
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APG7305A | 1 ch. Spctroscopy amplifier integrated Semi-Gaussian fitting Shaping time: 0.25 micro second and more Integral non-linearity < }0.025 % |
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APG7300A | 1 ch. 16k MCA Mode: PHA Function: GATE input , VETO input Deadtime: 500 nano seconds |
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APG7502C | 2 ch. 100 MHz dual input digital counter Rise time: 1.5 nano seconds |
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Preamprifier Comes with a special cable with a connector
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 APG1701 |
High-speed amplifier discriminator | |
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APG1700 |
Gain switching type high-speed amplifier | |
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APG1603 |
Charge amplifier for semiconductor detector | |
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APG1500 | The sensitivity of the Charge Sensitive Preaplifier can be set via rotary switch | |
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Random Pulse Generator| Image | Model | Features | Reference |
 NIM  Desktop |
APN6001 APU6001 |
2 ch. output Pulse height value, Rise-time, Decay, and period can be set arbitrarily. Reproduce the stochastic event of Poisson distribution. |
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Semiconductor detectors| Image | Model | Features | Reference |
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XCT101001 |
CdTe 10 x 10 x 1 mm3 |
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XCZT101005 |
CdZnTe 10 x 10 x 5 mm3 |
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Scintillation detectors
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XC700 | CsI (Tl) scintillation detector Size: 70 x 70 x 70 mm |
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XN300 | NaI (Tl) scintillation detector Size: 3 x 3 inch, 76 x 76 mm |
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Spectrum Survey Meter | Image | Model | Features | Reference |
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TS500 | Gamma-ray energy-compensation CeBr3(Ce) 1 inch x 1 inch |
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TS215 | Gamma-ray energy-compensation LaBr3(Ce) 1.5 inch x 1.5 inch |
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Mini Survey Meter | Image | Model | Features | Reference |
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TA100 | Handy type compact survey meter Detectors : CdTe semiconductor detector Dose rate and gamma-ray spectrum are displayed Communication I/F : USB GUI with application software for Windows |
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All in one digital spectrometer kit| Image | Model | Features | Reference |
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XL150-SYS | Detector : LaBr3 (Ce), Size 38x38mm + PMT | |
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XCE150-SYS | Detector : CeBr3 (Ce), size 38x38mm + PMT | |
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XCZT101005-SYS | Detector : CdZnTe, size 10x10x5mm | |
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Positron Annihilation Lifetime Measurement System | Image | Model | Features | Reference |
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DPALMS-LCA | ALL-IN-ONE for PALS, CDB and AMOC LINK to product introduction page Introduction brochure |
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DPALMS-LH | For LIFETIME measurement CDB and AMOC measurements are possible by adding a dedicated board Extended-support |
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 VME Desktop |
APV8702 APU8702 |
2 ch. on SMA coaxial connectors Communication I/F: Ethernet (TCP/IP) Time resolution: FWHM < 180 ps Functions: Digital CFD, TAC, MCA, DELAY |
APV8702 APU8702 |
VME |
APV8002C | 2 ch. on LEMO coaxial connectors Communication I/F: Ethernet TCP/IP Energy resolution: 1.7 keV @ 1.33 MeV, HPGe Combined COINCIDENCE firmware for CDBS measurement |
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XBF110 | BaF2 scintillation detector Ó 28 mm ~ L 20 mm PMT: H3378-51 |
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XBF464025 XBF464015 |
BaF2 scintillation detector with Conical head Ó 46 mm Ó40 mm ~ L25 mm (XBF464025) Ó 46 mm Ó40 mm ~ L15 mm (XBF464015) PMT: H3378-51 |
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Silicon Drift Detector System| Image | Model | Features | Reference |
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XSDD50-07 series |
Seven (7) Element Element area 455mm2, Active area 350mm2 High-countrate / High-sensitivity by suitable DSP |
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XSDD50-04 series |
Four (4) Element Element area 260mm2, Active area 200mm2 High-countrate / High-sensitivity by suitable DSP |
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XSDD50-01 series |
One (1) Element Element area 65mm2, Active area 50mm2 High-resolution / High-throughput by suitable DSP |
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Special purpose| Image | Model | Features | Reference |
| VME |
APV2200 | Clock / Reset Generator 32 ch. |
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VME Desktop |
APV8101S APU8101S |
Pileup Separator Processor 1 ch. Communication I/F: Gigabit Ethernet TCP/IP |
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VME Desktop |
APV8011S APU8011S |
Pileup Separator Processor 1 ch. Communication I/F: Gigabit Ethernet TCP/IP Suited for semiconductor detectors such as HPGe, SiPM, CZT |
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VME |
APV8102-14 MWPSA |
Digitizer with large memory capacity 2 ch. Memory : 1 GB Pulse waveform acquisition Communication I/F : Gigabit Ethernet |
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VME |
APV81G32Q | Switched capacitor ADC 32 ch. connector : HIF3BA-34PA-2.54 ds ADC : DRS-4 Chip Sampling Frequency : 1G/5Gsps Measurement modes : WAVE, DUMP Communication I/F : Ethernet |
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APG1916 | Amplifier discriminator 16 ch. Connector: 34-pin MIL connector Output: LVDS signal Rise time: 1.5 nanoseconds Repetition frequency: 125 MHz |
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Copyright (C) TechnoAP All Right Reserved.
Last Update: 17 March 2023
Last Update: 17 March 2023
