AutoStrip II Window Stripping Unit

Lead Equivalent of Glasses 0.50, 0.75 mm Pb; Classic or Sportive Frame Designs; Some Models Also Available With Single, Bifocal, Progressive Lenses Okay, these goggles do not exactly provide “Laser Safety” ;-), but they also protect the eyes from radiation: Our broad portfolio of PROTECT-Laserschutz X-Ray protection goggles for different applications include a range of classic or sportive frame designs. X-Ray protection goggles are also available with single, bifocal and progressive lenses according to your correctional values. The selection of the X-ray safety eyewear is essential to ensure the protection of employees and/or patients. Below you find an overview of available PROTECT-Laserschutz X-Ray protection goggles. The AMS Technologies safety experts are looking forward to assisting you by choosing the right safety equipment – get in touch now to discuss your requirements. Available X-Ray Protection Googles: X-Ray Eyewear XR540 "Berlin" Sportive Wraparound-Design; Matt Black Surface; Indirect Ventilation; Lead Equivalent of Glasses: 0.75 mm Pb; Available With Your Correctional Values on Request X-Ray Eyewear XR550 "Rom" Sportive Wraparound-Design; Lenses Wrap Around the Face; Bicolored Frame Design; Lead Equivalent of Glasses: 0.75 mm Pb; Available With Your Correctional Values on Request X-Ray Eyewear XR560 "Prag" Elegant High-quality Design; Extra-wide Lenses; Wraparound Technology; Low Weight; Lead Equivalent of Glasses: 0.50 mm Pb X-Ray Eyewear XR580 "Oslo" Sportive Wraparound-Design; Classic Black Glossy Surface; Lead Equivalent of Glasses: 0.75 mm Pb; Available With Your Correctional Values on Request X-Ray Eyewear XR610 "Paris" Classic Brown Overspec; Adjustable Temples; Lead Equivalent of Glasses: 0.75 mm Pb; Additional Lateral Protection Through Glasses on the Sides With 0,5 mm Pb Equivalent X-Ray Eyewear XR620 "London” Modern Overspec Designed to Fit Over Corrective Spectacles; Flexible Side Arms; Close Fitting Frame; Lead Equivalent of Glasses: 0.75 mm Pb   Key Features: Classic or Sportive Frame Designs Lead Equivalent of Glasses: 0.50, 0.75 mm Pb Some Models Also Available With Single, Bifocal, Progressive Lenses Application: Protection of Human Eyes Against Potentially Dangerous X-Ray Radiation

Cuvette Holders for Spectroscopy Applications; Cuvette Path Length 10 mm; Up to 4 SMA Ports; Filter Thickness up to 5 mm; Mounting Holes M4 and 8-32 Mightex’s SPC-CVH-10-xx series of cuvette holders accept a standard 10-mm path length cuvette for liquid or powder samples. SMA-terminated optical fibers are used to couple light sources and spectrometers to the device. SPC-CVH-10-xx series cuvette holders are compatible with Mightex’s fiber-coupled LED sources, Mightex’s spectrometers, as well as any other light sources or spectrometers with SMA termination. The standard configuration of a SPC-CVH-10-xx cuvette holder comes with two SMA fiber collimators, with the option of adding up to a total of four (4) SMA fiber collimators. This compact design can easily be inserted into a lab setup, and there is a filter slot on the holder which is perfect for fluorescence applications. Key Features: Designed for 10-mm Path Length Cuvettes Up to Four (4) SMA Fiber Collimator Ports Filter Slot Accepts Filters up to 5 mm in Thickness M4 and 8-32 Mounting Holes Applications: Optical Spectroscopy, Fluorescence Imaging

Integrated TIA With Burst Mode; 1260-1640 nm; Responsivity 10.5 A/W; Breakdown Voltage 23-31 V; Dark Current 500 nA; Package 6-pin TO 46 Wooriro’s avalanche photodiode (APD) with burst-mode TIA is packaged in a 6-pin TO-46 case with aspherical lens cap. The APD’s integrated transimpedance amplifier (TIA) can be operated in a burst mode that lifts the input data rate from 1.25 Gb/s continuous to 10.3125 Gb/s burst. Users can control the burst mode via a logic signal connected to pin 5 of the APD’s TO-46 case. Designed for an optical wavelength range of 1260 nm to 1640 nm, the APD with burst-mode TIA features a dark current of 500 nA typical at 98% breakdown voltage. Typical responsivity is 10.5 A/W at 1310 nm wavelength and 50 µW optical input power. Key Features: Integrated Transimpedance Amplifier (TIA) Burst Mode for 10 Gb/s Standard TO-46 Package With Aspherical Lens Cap Optical Wavelength Range: 1260 nm to 1640 nm Responsivity: 10.5 A/W Typ. (λ = 1310 nm, Pin = 50 µW, VAPD = 0.95 VBR) TIA Supply Voltage: 3.3 V (2.97 V to 3.63 V) TIA Supply Current: 40 mA Typ. Transimpedance: 2 kΩ Typ. (Differential, 50 Ω on Each Output) APD Breakdown Voltage VBR: 23 V to 31 V Temperature Coefficient of VBR: 20 mV/°C (-40 °C to +85 °C) APD Dark Current: 500 nA (Typical, @0.9 x Breakdown Voltage) Sensitivity: -32 dBm Typ. (CM @Continuous Mode 10.3125 Gb/s NRZ, PRBS = 231 – 1, BER = 1E-3, ER = 5.97 dB, λ = 1310 nm) Dimensions: Ø 4.67 mm x Length 3.38 mm Applications: IEEE 802.3av 10G 10G-EPON OLT

mini Liquid Cooling Evaluation Kit; Cooling Capacity 450 W @+25°C; Power Supply 24 VDC Key Features: Up to 450 W Cooling Capacity Ideal for Compact Cooling of Lasers or Bio Reagents Ideal for Mobile Cooling Applications Compressor Speed Control for Ease of Temperature Control Low Vibration, Low Noise Lightweight, Compact Easy to Integrate Kit to Interface With OEM Water Circuit and Electronics Control Components Carefully Designed to Match Each Other The mLC-C-450-24-KIT is a sealed vapor compression circuit with a speed controlled miniature rotary BLDC compressor. The evaporator is a brazed plate heat exchanger, the interface to the customer liquid coolant circuit.  The mLC-C-450-24-KIT comes with the separate 24 VDC inverter board. The compressor speed can be set from the upper control system by frequency or analog signal. The condenser is an aluminum finned copper tube heat exchanger coil and must be cooled by forced convection, i.e. a 120x120 mm fan or equivalent. The heat exchanger stainless steel plates are nickel brazed suitable for a variety of coolant fluids, such as water, DI water and glycol-water mixtures. The plate heat exchanger has male R ¼” connectors for the customer to connect its water circuit. The mLC-C-450-24-KIT’s condenser is an aluminum finned copper tube heat exchanger coil and must be cooled by forced convection, i.e. a 120x120 mm fan or equivalent. The heat exchanger stainless steel plates are nickel brazed suitable for a variety of coolant fluids, such as water, DI water and glycol-water mixtures. The plate heat exchanger has male R ¼” connectors for the customer to connect its water circuit. If you are looking for a ready-to-use recirculating chiller based on this mLC-Kit that includes the coolant loop, have a look at our mRC-C-450-100/240 mini Recirculating Chiller as well as our other liquid cooling solutions offerings – or browse our large portfolio of liquid to air temperature management assemblies. For lower cooling capacities, we also carry a Peltier-based mini Direct Cooling KIT providing up to 130 W with no liquids or moving parts (except fans). Your customized liquid cooler: AMS Technologies’ thermal management specialists are happy to develop a liquid cooling solution tailored to your needs – based on Peltier or compressor technology – and offer all services from development and proof-of concept to series production. Get in touch with us now to discuss your customized liquid cooler. Specifications: Cooling Capacity: Approximately 450 W (at 100 rps, Twater = +25°C, Tambient = +25°C) Power Supply Consumption: < 150 W (6 A @24 VDC, 80 rps) Temperature Range (Ambient, Operating): -10°C to +45°C Hydraulic Parameters: Pressure Drop 30 kPa @4 lpm Controller/Inverter Board: Operating Range 20 to 100 rps, Speed Command Square Wave Pulse Frequency 40 to 200 Hz, Variable Resistor Input 2 kΩ to 10 kΩ Dimensions: 200 x 172 x 180 mm (WxHxD) Weight: 3.4 kg Applications: Compact Cooling of Lasers or Bio Reagents With up to 450 W Cooling Capacity; Mobile Cooling Application; Evaluation Kit to Interface With OEM Water Circuit and Electronics Control

Interactions like SHG, SFG, DFG, SPDC, THG; Nonlinear Optical Materials such as KTP, LN, Mg:LN, Package: Free Space Fiber In / Free Space Out, Fiber-Coupled, Robust HousingAdvR offers versatile frequency conversion modules that can be configured for both waveguide and bulk setups, accommodating a variety of materials such as KTP, LN, and Mg:LN. These diverse material options enable AdvR to effectively cater to the unique demands of its clients, addressing requirements related to wavelength, power capacity, and conversion efficiency. Collaborating closely with customers, AdvR delivers customized solutions tailored to their specific frequency conversion needs, encompassing interactions like SHG, SFG, DFG, SPDC, and THG. The company creates bespoke frequency conversion chips, precisely aligned with customer specifications, including desired interactions and poling periods. AdvR's engineered nonlinear optical materials find applications across a broad spectrum of fields, from quantum information sciences and atomic sensing to atmospheric sciences. MgO:LN Ridge Waveguides: MgO:LN Ridge Waveguides off a wide range of capabilities for nonlinear optical frequency conversion. MgLN’s large transmission window allows for production and downconverison of UV wavelengths (≥350 nm). Its large power handing capability allows for 100’s of mW to be safely produce at 780 nm in a fiber coupled package KTP Waveguides: AdvR is unique in providing KTP waveguide based chips and devices. These waveguides have a broad range of capabilities, but see more the most interest in Type I or Type II interactions to generate photon pairs for quantum applications. RPE LN Waveguides: Undoped LN waveguides allow for superior conversion efficiency for low power or single photon conversion applications. AdvR has developed advanced capabilities in these waveguide chips. On-chip mode filters to allow for efficient coupling into the waveguide, while on-chip WDMs allow for separate coupling of signal and pump wavelengths for SFG and DFG interactions. AdvR offers a range of versatile packaging options to meet various needs in the realm of frequency conversion devices. For those seeking cost-effective solutions with minimal coupling losses, AdvR provides unpackaged waveguide chips, ideal for free-space beam paths and applications where loss reduction is crucial. If your application requires the convenience of input fiber coupling but demands free-space output, lower output loss, or higher SHG output, AdvR offers fiber in/free space out frequency conversion devices. These devices come equipped with PM fiber and FC/APC connectors for input, with options for lens collimated or bare waveguide output, and include an internal TEC for temperature control. Our standard fiber-coupled packaging option is the most popular choice, offering compact and convenient integration into test setups or OEM devices. It features PM fiber input and output with FC/APC connectors, along with an internal TEC for thermal management. For enhanced protection, AdvR presents the Robust Housing Option, which includes a 3mm jacketed fiber and the capability to secure the module to a standard optics table. This option also provides a 9-pin D-sub connector for seamless interfacing with your own standard TEC controller. With these diverse packaging choices, AdvR ensures that you can find the perfect solution to match your specific requirements. Key Features Interactions like SHG, SFG, DFG, SPDC, THG Nonlinear Optical Materials such as KTP, LN, Mg:LN Package: Free Space Fiber In / Free Space Out, Fiber-Coupled, Robust Housing Applications: Quantum Information Sciences; Atomic Sensing; Atmospheric Sciences

410, 436 nm Band Optimized; Active Area 0.81 to 200 mm2; AA Dia. 1.02 to 11.3 mm Round, 1.0 x 1.0 to 10 x 20 mm Rect.; Rise Time 0.02 to 45 µs; Responsivity 0.15 to 0.21 A/W; Capacitance 35 to 17,000 pF; Package TO-5, TO-8, TO-18, BNC, Metal, Plastic, Special OSI Optoelectronics’ blue-enhanced photovoltaic detector series is utilized for applications requiring high sensitivity in the visible-blue region and moderate response speeds. These detectors provide additional sensitivity in the 350 to 550 nm region when compared to the regular photovoltaic devices. For visible and near IR applications i.e. spectral response ranges from 350 to 1100 nm, regular photovoltaic devices can be considered. These detectors feature high shunt resistance and low noise and exhibit long term stability. Unbiased operation of these detectors offers stability under wide temperature variations in DC or low-speed applications. For high light levels (>10mW/cm2), the photoconductive series detectors should be considered for better linearity. These blue-enhanced photovoltaic detectors are not designed to be reverse biased! Very slight improvement in response time may be obtained with a slight bias. Applying a reverse bias of more than a few volts (>3 V) will permanently damage the detectors. If faster response times are required, the photoconductive series should be considered. Please refer to the photovoltaic mode (PV) paragraph in the application note “Photodiode Characteristics and Applications” available under “Downloads” for detailed information on electronics set up. Key Features: Blue Enhanced High Speed Response Low Capacitance Low Dark Current Wide Dynamic Range High Responsivity Ultra Low Noise High Shunt Resistance Applications: Pulse Detectors; Optical Communications; Bar Code Readers; Optical Remote Control; Medical Equipment; High-speed Photometry; Colorimeters; Spectroscopy Equipment; Fluorescence