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BioLogic’s battery cycler line-up is made up of two complementary ranges of instruments, the high throughput BCS-800 Series battery cyclers and the R&D grade MPG-200 Series test stations. The result is a powerful, modular system suitable for any organization specializing in battery testing and research, from industry to academia, quality control to certification. Battery Cyclers Home Products Electrochemistry Battery Cyclers Battery Cyclers BioLogic’s battery cycler line-up is made up of two complementary ranges of instruments, the high throughput BCS-800 Series battery cyclers and the R&D grade MPG-200 Series test stations. The result is a powerful, modular system suitable for any organization specializing in battery testing and research, from industry to academia, quality control to certification. MPG-200 More info MPG-200 More info BCS Modular System More info BCS Modular System More info MPG Series Cabinet More info MPG Series Cabinet More info Battery Cycling Temperature Oven More info Battery Cycling Temperature Oven More info BCS-800 Series

A laboratory furnace used specifically for the electrical characterization of materials and also for heat treatment between ambient temperature and 1100 °C. Home Products Electrochemistry Materials Research HTF-1100 Impedance Analyzers HTF-1100 High Temperature Furnace. A laboratory furnace used specifically for the electrical characterization of materials and also for heat treatment between ambient temperature and 1100 °C. Request a quote A reliable solution for high-temperature material testing. The HTF-1100 is a horizontal laboratory tube furnace dedicated to the electrical characterization of materials and for heat treatment in the range between ambient temperature and 1100 °C. The HTF-1100 is controlled by MT-Lab software when it is used with a MTZ-35 impedance analyzer. It can also be controlled manually through the programmable Watlow controller accessible on the front panel of the furnace. This controller facilitates the set-up and consequent monitoring of the furnace temperature during tests. The furnace accommodates many tubular High Temperature Sample Holders (HTSH-1100). A k-type thermocouple placed in the bottom of the furnace ensures the accurate control and measurement of the furnace temperature. The HTSH-1100 can operate under controlled environment conditions with inert or active gas (Ar, N2, O2, etc) and with variable pressures up to 2 bar relative. A quartz tube is supplied with the HTSH-1100 for performing measurements under controlled atmospheres. The HTSH-1100 base is fitted with a gas inlet/outlet for gas flow. A safety valve rated at 30 PSI limits the internal gas pressure to a maximum value of 2 bar relative. HTF-1100 Specifications Insulation material: Alumina Fiber Heating System: Super Kanthal 1350°C wire built in a cement cylinder Temperature Range: Ambient up to 1100°C Temperature Controller: PM6 Watlow PID controller Temperature Sensors: K-Type Thermocouple Temperature Control Accuracy: Better than +/-1°C Temperature scan: adjustable (from 0.1 °C/min to 20 °C/min) Safety Features: Emergency stop button; Buzzer sound alarm; Temperature safety limit HTF-1100 Brochure Material Testing Catalog

Battery Cycling Temperature Oven - 80 Litre Drying Oven. Home Products Battery Cyclers Battery Cycling Temperature Oven Request a quote 80 Litre Drying Oven Battery Cycling Temperature Oven Specifications Chamber capacity 80 Litres Chamber width 435 mm Chamber depth 375 mm Chamber height 502 mm Chamber material Stainless Steel 304L External width 541 mm External depth 575 mm External height 760 mm External material Durable epoxy powder-coated steel Recommended clearance 75mm on sides and rear Temperature range (Ambient + 7C) to 135C Temperature sensor Pt100 Control accuracy 0.1 C Temporal stability 0.2 C Available shelf positions 4 Shelves supplied 2 Shelf dimensions 428 x 320 mm Shelf spacing 100mm Shelf capacity 15 KG Insulation type Mineral Wool - asbestos free Insulation thickness 50mm Airflow System Moisture extraction system for high performance drying of moisture laden content utilizing. Exhaust diameter (mm) 63 - top mounted Fresh dry air intake— Hot moist air extraction Electrical supply Single phase, 220 - 240V, 50 - 60 Hz (alternatives available on request) Element rating 1.2 kW Countdown timer 99 hr 59 min - or continuous Controller type Multifunction intelligent digital PID-microprocessor Readout Digital LCD readout of set and actual temperature Temperature alarms High | low | deviation Country of origin Australia Options / Accessories Additional shelves 8 Step programmable controller 500 Step programmable controller Side access port - 50 mm Fan speed controller RS232 or RS485 comms module Ethernet comms module ISPM 15 compliant crating for export Calibration certificate Modulating Valve (Baffles fresh air intake). Increased maximum temperature to 200C

As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. Active Technologies Home Products Active Technologies NI FlexRIO Adapter Modules Waveform Generator Range NI FlexRIO Adapter Modules High Speed Arbitrary Signal Generator AT-1120 More info AT-1120 More info AT-1212 More info AT-1212 More info New Generation Waveforms for Complex Real-World Signals High bandwidth and high resolution AWGs help you to generate with confidence complex signals like digital modulations and RF stimuli for functional and performance tests. AT-1120/AT-1212 FlexRIO Modules, by combining up to 2 GS/s with 14 Bit Vertical Resolution, generate high performance analog waveforms to meet demanding for test signals and applications where speed, resolution and quality is an issue. Flex-RIO adapter modules in combination with Flex-RIO FPGA PXIe cards allow to build a FPGA programmable Arbitrary Waveform Generator Active Technologies can in additional offers a large set of bench-top Arbitrary Waveform Generators and Pulse Generators AT-1120 New Generation Waveforms for Complex Real-World Signals High bandwidth and high resolution AWGs help you to generate with confidence complex signals like digital modulations and RF stimuli for functional and performance tests. AT-1120, by combining 2 GS/s with 14 Bit Bit Vertical Resolution, gives you high performance analog and digital waveforms to meet demanding for test signals and applications where speed, resolution and quality is an issue. Test With Confidence Key Features Download Documents Superior Testing RF Signal Generation Digital Modulations Extended waveform memory by using FlexRio onboard DRAM Very Low Harmonic Distortion Arbitrary and DDS modes Real Time Data Streaming and Processing LabView FPGA Graphical Programming AT-1212 New Generation Waveforms for Complex Real-World Signals AT-1212, by combining 1.25 GS/s with 14 Bit Vertical Resolution, gives you high performance analog and digital waveforms to meet demanding for test signals and applications where speed, resolution and quality is an issue. Test With Confidence Key Features Download Documents Superior Testing RF Signal Generation Digital Modulations Extended waveform memory by using FlexRio onboard DRAM Very Low Harmonic Distortion Arbitrary and DDS modes Real Time Data Streaming and Processing LabView FPGA Graphical Programming AT-1120 AT-1212

Potentiostat / Galvanostats for every possible scientific and industrial field. A variety of robust and user-friendly potentiostats for many diverse applications, from single to bi to multiple channel form factors. Our innovative software enables users to perform all the standard electrochemical techniques as well as a host of specialized procedures and analyses. Potentiostats Home Products Electrochemistry Potentiostats ESSENTIAL SP-50 / SP-150 VSP VMP3 HCP-803 / HCP-1005 VSP-3e VMP-3e SP-200 SP-300 VSP-300 VMP-300 SP-240 BP-300 PREMIUM Product Range Essential BioLogic provides a variety of robust and user-friendly potentiostats for many diverse applications, from single to bi to multiple channel form factors. Our innovative software enables users to perform all the standard electrochemical techniques as well as a host of specialized procedures and analyses. SP-50 More info SP-50 More info SP-150 More info SP-150 More info VSP More info VSP More info VMP3 More info VMP3 More info HCP-803 More info HCP-803 More info HCP-1005 More info HCP-1005 More info VSP-3e More info VSP-3e More info VMP-3e More info VMP-3e More info Anchor 1 Product Range Premium BioLogic designed the Premium range for researchers who need the fastest, most precise electrochemical measurement equipment available. This state-of-the-art range of instruments boasts the highest specifications available on the market: from 100 fA to 150 Amps, from DC measurement, to 7 MHz in EIS and a sampling rate that can reach 1 data point every µs. With acquisition times in excess of 1 Ms and bandwidths ranging from 10 µHZ to 7 MHz, and a sampling rate that can reach 1 data point every µs, Premium range potentiostat/galvanostats are unparalleled in terms of precision, performance and speed. SP-200 More info SP-200 More info SP-300 More info SP-300 More info VSP-300 More info VSP-300 More info VMP-300 More info VMP-300 More info SP-240 More info SP-240 More info BP-300 More info BP-300 More info Boosters More info Boosters More info Anchor 2 Why Biologic Potentiostats? Best Price/performance ratio, quality, reliability, versatility is second to none. USB and Ethernet communications as standard whilst also remotely accessible Multiple users on one system. EC-LAB software is an open Licence software that is included with every potentiostat. No Dongles, or additional licences required. More than 70 techniques are included with EC-LAB. Used for sensors, corrosion, renewable energy and battery research, EC-LAB software is intuitive and user friendly. Research grade hardware. Capable of long term experiments as data is streamed to PC drive. Experiment data points collected is NOT limited to a fixed memory buffer A Biologic potentiostat chassis' never have to leave Australia for repair or calibration. Local support, install and training.

As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. Active Technologies Home Products Active Technologies Pulse Generators Pulse Generator Range Pulse Generators FAST PULSE GENERATOR: RISE TIME FASTER THAN 70 PS The modular structure of the systems allows to build a Multi Channel Pulse Generator in a compact form factor. Active Technologies Pulse Generators can be used to set up continuous or triggered pulse streams and offers flexibility to address the most challenging applications like: big physics automated testing microwaves modulators wireless communication medical and chemistry. The combination of: fast edge generation excellent dynamic range easy to use user interface go perfectly on large experiments areas such: colliders lasers modulations detectors strips silicon emulation. Radar or Sonar systems perfectly match with these generators to better test and prove complex detection systems. Active Technologies Fast Pulse Generator solutions allow to generate sub nano second pulses as well as wide amplitude pulses up to 24V Pulse Generators – Key Features Fast Pulse Generator: 70 ps Rise/Fall time @ 5Vpp Experiment areas: colliders, lasers modulations, detectors and strips silicon emulation. Double, triple, quadruple pulse mode Sub-nano second pulse generation Adavced research, Radar and Lidar applications SELECT A MODEL BELOW FOR FURTHER INFORMATION Pulse Rider PG–1000 Arb Rider AWG–5000 Arb Rider AWG-4000 Arb Rider AWG-2000 AWG-1102 / 1104 What frequency should a pulse generator be? The fast pulse generators are able to create high bandwidth pulses with fast rise and fall times combined with high voltage amplitudes. The PG-1000 offers 5 Vpp pulse amplitude and 70 ps of rise and fall time. What are the main applications for pulse generators? The pulse generators are highly used in semiconductor test, aerospace & defense, Lidar and Radar testing, Advanced Research and Big Physics applications,optical and non-volatile memory testing. Pulse Rider PG–1000

The MPG series: Precision, stability and power – perfect for in-house R&D or academia. Introduced in 2010, the first MPG-2 system offers 16 independent potentiostats in one chassis. Home Products Battery Cyclers MPG Series - Bench / Cabinet Request a quote Research Grade MPG Series - Bench or Cabinet The MPG series: Precision, stability and power – perfect for in-house R&D or academia. Introduced in 2010, the first MPG-2 system offers 16 independent potentiostats in one chassis. To complete the range, more powerful systems have been developed: the MPG-2xx series is now offered as a range of 5 units (in fixed configurations): MPG-2: 16 channels/100 mA each, MPG-205: 8 channels/5 A each, MPG-210: 4 channels/10 A each, MPG-220: 2 channels/20 A each, MPG-240: 1 channel/40 A. MPG-2XX Series Brochure

As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. Home Products Active Technologies Pulse Generators PG-1000 Pulse Generator Range PG-1000 FAST RISE TIME PULSE GENERATOR Sub Nanosecond Pulse Generator The Pulse Rider Series includes a set of fast rise time pulse generators , that offer premium signal integrity with the easiest to use touch screen display interface (SimpleRider™), that allows pulse creation in few screen touches. The signal output Voltage can be adjusted up to 5 Volts pk-pk in a window of ±5 Volts with 70 ps edge rate. The powerful architecture provides the possibility to generate advanced pulse sequences, such as double pulse or quad pulse, with fully independent timing parameters. The maximum repetition rate of Pulse Rider Pulse Generator is 800MHz and the minimum pulse width is 300 ps @ 5V. Take a look to the video below to see how to create a sub-nano second pulse, or download the full documentation in the doc section below, to learn more. Models Get a Quote High-Performance Pulses for Your Tests Whether it is generating a complex pulse train, a series of radar pulses, pulses for Advanced Research, laser and optical experiments and semiconductor tests, the PG-1000 is the ideal partner for all your most complex tests and cutting-edge applications. Highlights 70 ps Rise and Fall Time (symmetrical) Up to 5Vpp into 50 Ohm Pulse Amplitude with ± 2.5V hardware offset Minimum Pulse Width: 300 ps Jitter RMS: 4 ps 800 MHz Repetition Rate Multiple Pulses You can combine multiple pulses together to obtain double, triple and quadruple pulses that are very useful in semiconductor testing, radar design and laser/optical experiments. Using this feature you can create clock-like signals with frequencies up to 800 MHz. Highlights Double, triple and quadruple pulse mode Up to 800 MHz frequency Semiconductor test, radar, lidar and laser application Radar Design and Testing Active Technologies Pulse Rider PG-1000 Series pulse generators allow creating pulses with different pulse width, repetition rate and amplitude easily using the graphical interface and the touch screen display. Following this solution, it is possible to save the time to develop the pulse system and concentrate the efforts on the radar design and test goals. Highlights Easy to use Simple Rider User Interface Simplify tour Radar design and testing Primary radar and secondary radar pulse generation and multiple target simulation Semiconductor Applications Newer technologies applied on the Non-Volatile RAM require faster pulses every day: Active Technologies Pulse Rider with transition time under 70 ps, an amplitude up to 5 Vpp, and a time resolution of 10 ps combined to the vertical resolution of 10 mV is the perfect choice for those kinds of requirements. Developing modern MOSFET transistor, the challenge is to use high κ material for the dielectric in MOS capacitor, this give the advantage of reduce the leakage current through the isolator but at the same time, it causes some problem due to charge trapping. Short and Slow Pulses tests are fundamental techniques to study those kinds of problems. The Active Technologies Pulse Rider PG-1000 Series pulse generators supply fast edges under 70 ps, a baseline offset of +-2.5 V and a pulse width from 300 ps up to 1 s, so it may be the ideal instrument to generate the pulses for Short and Slow Pulse tests. Highlights Non-Volatile Memory Cells Characterization Mosfet Test Short, Slow and Narrow Pulses tests Advanced Research Applications In big physics experiments, photomultipliers are fundamental since they allow to convert photons in electric charge that can be received by the acquisition system allowing the detecting photons. Using Active Technologies Pulse Rider PG-1000 Series pulse generators it is possible to generate a pulse with different width, period and amplitude used as a Laser Driver signal. A klystron is a specialized linear-beam vacuum tube that can be used in multiple applications, as example in the colliders used for big physics experiments, it has the purpose to generate the particles that will collide. Like for the laser applications, it is necessary to generate an enable signal to drive the klystron. The Pulse Rider PG-1000 Series pulse generators offer an off-the-shelf solution to control and modify the klystron enable signal parameters in an easy way using the graphical interface and the touch screen display. Highlights Advanced Research and Big Physics applications Laser drivers, klystron drivers Easy to use graphical interface Multi-instrument synchronization Test With Confidence Software User Interface Key Features Superior Testing Big physics applications Experiments colliders Lasers modulation Detectors Strips silicon emulation Mass spectroscopy TDT and TDR applications Radar and sonar systems Semiconductors tests Download Documents Get a Quote

Boosters for Essential Potentiostats Home Products Electrochemistry Boosters Boosters for Essential Potentiostats Request a quote Essential Range Boosters for Essential Potentiostats Deliver more power to your application with a high current booster. Each of our modular multi-potentiostat units and the SP-150 can be interfaced to a separate current booster unit. These modular booster units can have different booster modules placed inside them (2, 5, 10, or 20 A). In the standard booster chassis there are 8 available booster slots and the current limit is 20 A. Each booster channel is connected to a single potentiostat channel. There is also an 80 or 100 A booster unit. 4 A booster kit can be directly inserted in the VSP chassis. General features Booster range included in the autoranging EIS capability Plug-in module or external chassis Plug-and-play Specifications External booster ±2 A, ±5 A, ±10 A, ±20 A on ±10 V adjustable from -20 to +20 V ±80 A on ±3 V ±100 A on [0,6 – 5] V Internal kit ±4 A on 20 V (for VSP) Electrochemistry Accessories Electrochemisty Instrument Catalog

As a leader in this field, BioLogic has over 30 years of experience of developing equipment designed to give researchers a cutting-edge. Originally dedicated to rapid kinetics measurements, BioLogic now also develops, integrates and manufactures a wide range of instrumentation for steady-state spectroscopy including spectropolarimeters. Home Products Active Technologies Pulse Generators AWG-2000 Pulse Generator Range ARB RIDER AWG-2000 PULSE GENERATOR 2 and 4 Channel Pulse Generator – 16 bit resolution The ARB Rider AWG-2000 is the cost-effective and powerful 2 or 4 channel Arbitrary Function Generator (AFG) and 2 or 4 channel Arbitrary Waveform Generator (AWG) with advanced sequencer functionality. 180MHz bandwidth, up to 12Vpp output range and up to 256 Msample memory depth; the AWG-2000 is the ideal Arbitrary Waveform Generator choice for automotive, IoT, and medical applications. The 8 channel digital option combined with 2 or 4 analog channels make the AWG-2000 a full featured mix signal generator. It’s now possible generate 2 o 4 analog signals fully synchronized with 8 digital lines (LVTTL or LVDS standards) Models Get a Quote AWG-2184: 600 MS/S | 16 BITS | 4 CHANNELS ARBITRARY WAVEFORM GENERATOR 7" Capacitive Touch Screen Display Soft Keyboard 8 BNC Analog Output Connectors 3-IN-1 Instrument The AWG-2000 Series instruments are multifunctional signal generators that combine three functions in one instrument, including Function Generator, Arbitrary Waveform Generator and Digital Pattern Generator. These three-different features expand the capabilities of the HW adopting two different technologies: Improved DDS in AFG mode and variable clock, true-arbitrary technology in AWG mode. The AFG mode allows the user to change glitch free on-the-fly all the parameters preserving the waveform shape and to create/generate the waveform in a glace. The AWG mode lets the user create complex waveform scenarios of analog and digital patterns, insert them in a sequence, apply loops, jumps and conditional branches. Highlights Up to 256 Mpoints of waveform memory on each channel 16384 sequencer entries Analog and Digital signals fully synchronized Cost-effective price per channel Extremely east to use and versatile functionality Automotive Today’s cars are including lots of highly sophisticated electronic control units (ECU) with very sensitive electronic components. The 16-bits vertical resolution combined with the 600 MS/s Real Time (1.2 GS/s 2x interpolated) fast sampling rate and 12Vpp output amplitude range, make the AWG-2000 Series instruments indispensable tools for successfully and efficiency addressing the new testing challenges in automotive. Highlights CAN, CAN-FD, LIN, Flexray, SENT emulation and troubleshooting 100BASE-T1, 1000BASE-T1, BroadR-Reach emulation and immunity from interference signal and noise EMI debugging, troubleshooting and testing Electrical standards emulation up to 24 V Power MOSFET circuitry in automotive electronics optimization and characterization IoT, Ind. 4.0 and RF Modulator Arb and Function Riders will be the iconic instrument for this application. The possibility to emulate complex RF I/Q modulation for simulation and Test vs wireless devices or working on Internet of things of industry 4.0 applications. Each engineer may use the possibility to import waveform to emulate devices under test, impose distortion on the waveform (such noise) to test the ability of devices to be compliant to the standards. Highlights Sensors signals generation: emulation of ideal signals or generation of real world signals after acquisition with an High Definition Oscilloscope. Integrated Attenuator for Low Amplitude signals generation MOSFET gate drive amplitude signal emulation for MOSFET characterization and optimization Power up sequences of IC using the low impedance feature (0 Ω output impedance). Low Noise Signals Generation : ECG signal emulation The Active Technologies AWG-2000 Series instrument is provided with an internal 10x Attenuator that lets the user generate signals with a very low amplitude without sacrificing the DAC resolution. Real-world cardiac signals typically are very low in amplitude — often only a couple of millivolts or even less. Active Technologies AWG-2000 Series overcome this generation challenge with the built-in internal 10x attenuator and by using an analog output stage able to provide an extremely high signal fidelity. Highlights 10x Internal Attenuator Real-world signals generation: cardiac, EEG 16 Bits vertical resolution with low amplitude signals Semiconductors and Research Applications The AWG-2000 Series AFG user interface includes the capability of the Double Pulse function required for testing the dynamic behavior of power devices such as MOSFETs and IGBTs. Each of the two pulses can have a different amplitude, rise-time, fall-time and width. Researches and Scientists require to emulate pulses adding amplitude and timing variation imperfections in an accurate, detailed and repeatable controlled manner: with up to 256 Mpoints of waveform memory per channel, you can easily acquire real-world signals from the oscilloscope and playback them with the AWG-2000 Arbitrary Waveform Generator. Highlights Double Pulse Mode Oscilloscope Record & Playback PRBS sequences Physics, electronics, chemistry, mechanics experiments Test With Confidence Software User Interface Key Features Download Documents Superior Testing 7″ Touch Screen display and Soft Keyboard 2 or 4 Analog Channels + 8 Digital Channels (optional) full synchronization between analog and digital channels Advanced sequencer and waveform editor included in the basic price Create Easily waveforms and pulses with Simple Rider UI Get a Quote

Save your precious samples: 50 µl of sample is all you need. A unique micro-volume stopped-flow solution for the most demanding applications. Home Products Kinetics and Spectroscopy µSFM Product Overview µSFM Save your precious samples: 50 µl of sample is all you need. A unique micro-volume stopped-flow solution for the most demanding applications. Request a quote Micro-volume Stopped-flow. Micro-volume operation is now a real requirement for stopped-flow users. Biochemists and biologists often spend days or weeks in order to prepare and purify a few hundred microliters of precious sample. It therefore makes sense that their time will be better spent, if this process is made as efficient as possible. Previously, the idea of running a complete series of experiments with only 100µl of solution was considered a pipe dream, as such volumes were necessary just for priming the instrument. 100 µl stock, 10 shots, 1 ms dead time. The reduction of sample consumption in stopped-flow instruments was our driving motivation for the development of the µSFM. Not a single drop of precious liquid is wasted in the stopped-flow or in the storage vial. With only a 100 µl stock solution, the user has enough solution to carry out 10 replicates. And this could even be extended to 25 replicates when carrying out refolding/folding experiments! This performance is done using our standard microcuvette so, there is no loss of sensitivity and only 1ms dead time. Mixing precision and modularity. The µSFM is a two-syringe stopped-flow system. Each syringe is driven by an independent stepping motor so the mixing ratio can be freely changed in Bio-Kine software from 1:1 to 1:9. The combination of high-precision motors with the precision of micro-volume glass syringes allows the user to inject a few µl of precious samples at each experiment. A series of experiments are possible with only 50µl of stock solution and without compromising on sensitivity . Minimum injection volume can be reduced down to 3µl in asymmetric mixing conditions. The µSFM is a dedicated single mixing stopped-flow, optimized for absorbance, fluorescence, 90° light scattering, and X-ray kinetics . Users seeking increased modularity should consider our premium stopped-flow range. µSFM brochure

Inorganic Scintillator Detectors. High Resolution Gamma Ray Spectroscopy. Home Products Nuclear Physics Equipment CAEN SyS Scintillator Detectors Product Overview Inorganic Scintillator Detectors High Resolution Gamma Ray Spectroscopy. Built-in or Remote Preamplifier types are available depending on application • Option to choose a preamplifier type with a resistive or optoelectronic feedback high energy rate up to 15000 MeV/sec. • Ability to increase energy rate to 20000 Mev/s radiation detection in any spatial orientation made possible by modifications to the portable cryostat during manufacturing. • Energy range from 3 keV to 1500 keV • Input window materials: Aluminium, Beryllium or Carbon-fiber • Excellent peak symmetry and high resolution • HV supply protection if detector is warm • High count rate indicator • Variable cryostat design modifications • Can be transported and stored without cooling Request a quote Application: Each scintillation crystal has its own specific application. For high resolution Gamma ray spectroscopy, NaI(Tl), or CsI(Na) (high light output) are normally used. CeBr3 has exceptional light emission and fast light deexcitation time. For high energy physics applications, the use of bismuth germanate Bi4Ge3O12 (BGO) crystals (high density and Z) improves the Gamma ray energy confinement. (BGO) crystals (high density and Z) improves the Gamma ray energy confinement. NaI(Tl): General scintillation counting health physics environmental monitoring high temperature use CsI(Tl): Particle and high energy physics general radiation detection photodiode readout phoswiches BGO: Particle physics geophysical research PET anti-Compton spectrometers CeBr3: High resolution spectroscopy fast timing particle and high energy physics ultra-low background Standard Set: The Inorganic scintillator assemblies are composed by the following components: the crystal (e.g. NaI(Tl), CsI(Na)) A 14-pin 10 stages PMT This can be matched with MCA PMT base GAMMA Stream , bPAD and bMCA . The assembly can be also provided with a voltage divider, to be matched with TOPAZ-Pico MCA. Scintillator Detector Product Presentation