TCube Edge 2A (10-14072-2A-0-F3P3A7) Thermoelectric Recirculating Chiller

240W @ 20°C; >2 lpm @ 14 psig; 1/4" valved CPC Fittings; Centrifugal Pump; Stainless Steel This thermoelectric recirculating chiller is a low-cost, high-performance device optimized for lasers, optics and life sciences. It features precise temperature control (±0.05°C repeatability), long-life reliability, quiet operation and environmental friendliness in a compact size. Using universal power, the TEC chiller is very energy efficient only drawing power when required.

Aluminium Coated, Single Mode, Multi Mode; 190 to 2400 nm; Core Diameter 50 to 400 µm; Mode Field Diameter 4.3, 9.0 µm; Cladding Diameter 125 to 440 µm; Numerical Aperture 0.12 to 0.275Fiberguide’s AFS-A/SFS-A/AGI-A/ASI-A/UVS-H2A series of aluminium coated fibers are designed for a wide temperature range (-269 to +400 °C) and superior strength (>100 kpsi). This allows for long life at extended stress levels in applications that require tight bends. Also, the strong chemical bond between the silica cladding and the aluminum enables direct termination without pistoning. This bond also makes aluminium coating the ideal choice to preserve deep UV performance in Fiberguide’s Solarguide UVS-H2A series of solarization resistant UV multi mode fiber. Within this series of aluminium coated high temperature fibers, users find step index (AFS/SFS, UVS-H2) and graded index (AGI) multi mode fibers as well as anhydrous silica (ASI) single mode fibers. As an option, some types of aluminium coated high temperature fibers can be provided with a broad selection of shaped tips – standard configurations as well as custom designed shapes. Shaped tip fibers provide optimum control over beam delivery and/or increased efficiency of light collection. Some of the fibers can also be end capped to achieve higher coupled power into a fiber core by reducing the power density at the air / silica interface, commonly the point of laser damage. End cap diameters and lengths are offered for select numerical apertures and fiber cores size, but can be easily customized for a variety of fiber types and specialized applications. Additionally, all fiber types can be equipped on demand with Fiberguide’s patented RARe Motheye anti-reflective technology that enhances fiber transmission performance and significantly increases the damage threshold for your application over a large wavelength range. Key Features: Multi Mode (Step/Graded Index) or Single Mode Fibers Pure Fused Silica Core, Fluorine Doped/Pure Silica Cladding Coating: Aluminium Core / Cladding Sizes: 50/125 to 400/440 µm (MM) Mode Field Diameter / Cladding Sizes: 4.3/125, 9.0/125 µm (SM) Numerical Aperture (NA): 0.12 to 0.275 Recommended Bend Radius: Short Term 100 x Clad Diameter, Long Term 200 x Clad Diameter 100% Proof Test Using 4-Axis Bend Method Applications: High Temperature and Cryogenic Temperature Sensing; Semiconductor Manufacturing; Corrosive and Caustic Environments; Ultra-high Vacuum Devices; Radiation Resistant Sensors; Rocket, Turbine and Jet Engine Monitoring

Electrically Insulative; Colourless; 700 ml (24 fl oz) Koolance 705 series coolant is used by many industries requiring a low conductivity (3 microSiemens per centimeter), low-toxicity, reliable coolant with corrosion and biological inhibitors. A high quality coolant is extremely important for addressing dissimilar metals and biologic growth (bacterial and algae) long-term. Koolance liquids will not clog components and can typically be used for 2-3 years before replacement is recommended. (Coolant shelf life is 3 years.) This container includes 700ml (24 fl oz) of prediluted coolant and can function as a squirt bottle for convenient reservoir filling. It's recommended to replace the coolant every 2-3 years, or immediately if there is any change in color or clarity. Liquid coolant mixtures based primarily on water will conduct some amount of electricity. Keep in mind that foreign debris (such as dust) will increase the conductivity of water-based coolants. The freezing point is -35°C (-31°F). This coolant has been tested with the following materials: Metals: copper, brass, aluminum, stainless steel, nickel, steel, gold, lead Plastics: ABS, PA66, PBT, PE, PEI, PES, PETG, PMMA, POM, PP, PPE, PPO, PPS, PTFE, PU, PVC Rubber: EPDM NOTE: Not recommended for polycarbonate plastics or other PC-based plastics.

780-1550 nm; Total Phase Shift >65π; IL <0.5 dB; RL >50, >55, >58 dB; PDL <0.05, <0.1 dB; Residual Amplitude Modulation ±0.01 dBCoherent or interferometric sensor systems, such as distributed acoustic sensors (DAS), often require a low-loss, low-cost phase shifter or modulator to obtain the desired sensing signals. Lunas FPS-002 is an all-fiber device that shifts or modulates phase shifts up to 75π at frequencies from DC to 20 kHz.The FPS-002 phase shifter requires a lower half-wave voltage than the FPS-001 phase shifter module: only 2 V compared to up to 20 V. Like the FPS-001, it is an all-fiber design and offers the benefits of low loss and back reflection. Two different size packages (small frame or large frame) are available to accommodate the bend diameter requirements of different fibers.Key Features:Low Insertion Loss (IL): <0.5 dB (at λc, Excluding Connectors)Low Polarization Dependent Loss (PDL): <0.05 dB (SM), <0.1 dB (PM)Return Loss (RL): >58 dB (Without Connectors), >55 dB (With APC Connectors), >50 dB (With PC Connectors)Low Residual Amplitude Modulation: ±0.01 dB at 1550 nmTotal Phase Shift (@500 Hz, Vpp = 150 V): >65π (@ 1550 nm)Low Half-wave Voltage (@ 500 Hz): 2.5 to 4.5 V Typical (Small Frame), 0.7 to 1.5 V Typical (Large Frame)Operating Wavelength: 780, 1060, 1310, 1550 nmFiber Type: ClearCurve ZBL, HI1060, 780 HP, PM, PM980XPCapacitance of Piezo: 0.18 µFMaximum Applied Voltage: 150 VCompact Size: 35 x 17 x 10 mm (Small Frame), 45 x 27 x 11 mm (Large Frame)Applications: Fiber Interferometers; Fiber Laser Systems; Fiber Sensor Systems

Gooch & Housego’s FFW-X wavelength division multiplexers (WDMs) are single mode (SM) optical fiber components and modules. They enable two or three wavelengths to be combined or separated. For the FFW-X series, Gooch &Housego (G&H) utilizes low-loss fused fiber technology – no light leaves the fiber and therefore no alignment is required and there are no unwanted reflections. Furthermore, the output fiber pigtails may be directly integrated into beam delivery systems. These high-performance parts are available in many wavelength configurations (including a duplexing version), fiber and connector options, with standard as well as subminiature packages. They can therefore be readily specified in a wide variety of applications, enabling rapid design cycles and new project builds. Visible Wavelength Combiners:Designed for applications in display systems, sensors and biomedical equipment, G&H’s FFW-xxxxxxxxx single mode visible wavelength fused fiber combiners enable any two or three primary colors in the visible wavelength region to be combined or separated. Visible wavelength combiners are available for either two (red/green, blue/green, red/blue light) or three wavelengths, providing full RGB operation and enabling full color displays. All variants are available on a custom basis, so please contact AMS Technologies to discuss your specific requirements. Near Infrared WDMs:Designed for applications in fiber laser, sensing, biomedical, military and avionics, the FFW-xxxxxxxxx near infrared WDMs enable the low-loss combining or splitting of a pair of wavelengths within the 700 nm to 1199 nm region. G&H can rapidly produce such custom WDMs, with typical minimum wavelength separation of 50 nm. Specific applications could include combining two sensor wavelengths onto one fiber, splitting laser harmonics, or combining wavelengths in fiber lasers. WDMs for 2 µm Operation:Gooch & Housego’s FFW-xxxxxxxxx fused WDMs for 2 µm operation combine multiple wavelengths of light in single mode (SM) fiber whilst maintaining low loss. G&H proprietary manufacturing technology provides low loss with low polarization dependence (PDL). The all-fiber construction offers excellent reliability and high power handling characteristics. These high-performance parts are available in many wavelength configurations, housing, fiber and connector options and can therefore be readily specified in a wide variety of applications, enabling rapid design cycles and new project builds. Duplexing WDMs 1310/1550 nm & 1625 nm (FFW-4xxxx11xx):G&H’s FFW-4xxxx11xx series of duplexing WDMs enable the low-loss combining or splitting of a pair of wavelengths. 1310 nm/C band or 1310 nm/L band components are used to double network bandwidth whilst the 1310/1625 nm component is used to add or drop a supervisory wavelength from a system. G&H proprietary manufacturing technology provides uniquely low excess loss and wavelength dependence along with low polarization and temperature dependence for all ports. In addition to the standard wavelengths, other combinations such as 1550/1625 nm are available. Please contact AMS Technologies with your specific requirements. FFW-X SM Pump Signal WDMsGooch & Housego’s FFW-X single mode (SM) fused pump signal wavelength division multiplexers (WDMs) are used for multiplexing signal and pump power in erbium-doped power amplifiers, pumped by wavelengths from 960 to 1480 nm. Proprietary manufacturing technology provides uniquely low excess loss, along with low polarization and temperature dependence for all ports. The ultra-low loss of these components promotes high efficiency of use of pump power and low noise figure. Fused Pump Signal WDMs 980 nm (FFW-xxxxx2xxx):G&H’s FFW-xxxxx2xxx series of fused pump signal WDMs, 980 nm, multiplex signal and pump power in 980, 960 or 1060 nm-pumped erbium-doped fiber amplifiers. Wavelength configurations allow for 960, 980 or 1060 nm pumping and C, L or C+L signal bands. Reliability is assured through qualification to Telcordia GR-1221, with a field proven FIT rate of <1. Fused Pump Signal WDMs 1480 nm (FFW-3xxxx21xx):The Gooch & Housego FFW-3xxxx21xx series of fused pump signal WDMs, 1480 nm, multiplex signal and pump power in 1480 nm-pumped erbium-doped fiber amplifiers. Wavelength configurations are 1480 nm – C band and 1480 nm – L band. Subminiature Pump Signal WDMs (FFW-5x1xx2xx0):G&H’s FFW-5x1xx2xx0 series of subminiature pump signal WDMs provide low-loss multiplexing of pump and signal in an ultra-short 32 mm length package. Designed for space-constrained optical amplifiers, the product is manufactured using ø80 µm cladding fiber. This enables low fiber bend radius without compromising mechanical integrity. Key Features: Combining or Separating Two or Three Wavelengths Wide Range of Regular Parts Available Custom Wavelength Capability All Fiber – No Lens Alignment Low or Ultra-low Light Loss No Unwanted Reflections High Power Handling Custom Designs Available Key Features FFW-X SM Pump Signal WDMs: Promotes Low Amplifier Noise Figure Promotes Low Pump Power Wastage Ultra-low Excess Loss: <0.05 dB Typical C, L or C+L Signal Bands Wide Range of Regular Parts Available Miniature Versions (32 mm Package Length) Available High Power Handling Telcordia GR-1221 Compliance (980 nm, Subminiature) Proven Reliability Applications: Fiber Lasers; Sensors, Biomedical Equipment; Research; Visible and Display Systems; Avionics; Defense; Telecoms; Optical Networking; Instrumentation; IR Imaging; Industrial, IR Counter Measures; C, L or C+L Band EDFAs; C or L Band Pump/Signal Multiplexing; 960, 980, 1060 or 1480 nm Pump Rejection; Fiber Gyros; Sensors

Cabinet Cooler; Compressor Based; 400 W @+26°C Cabinet, +35°C Ambient; 24 VDC; 13 A; Flush Mount; Temperature Stability ±0.05 K Key Features: Miniature Compressor-based Air Cooler for Cabinet Cooling Tasks up to 400 W Compact Dimensions and Low Weight Compared to Peltier-based & Other Compressor-based Coolers Easy to be Attached to Customer Cabinet IP65 Environmental Protection (Ambient Side) – For Operation in Harsh Environments 24 VDC Power Supply – Independent of Mains AC Voltage or Frequency Integrated Temperature Controller Speed-controlled Compressor – no Hysteresis, Stabilized Temperature to ±0.05 K PWM Speed-controlled Fan for Noise Reduction IoT Ready: Remote Operation, Monitoring and Service over Integrated Ethernet Interface AMS Technologies’ mAC-C-400-24 compact and rugged, compressor-based mini air cooler provides cabinet cooling capacities up to 400 W. In comparison to Peltier-based cabinet coolers, the highly efficient mAC-C-400-24 features significantly lower size and weight due to its miniature compressor and customized condenser/evaporator. A powerful fan moves the cabinet internal air at 130 m³/h. The internal air's temperature is maintained at the set value within ±0.05 K by an integrated circuit controlling the rotary compressor’s speed. The external fan is PWM speed controlled for noise reduction. Global Use: Its 24 VDC supply voltage allows the mAC-C-400-24 to operate from the cabinet’s 24 VDC voltage rail, with no need to care for the local mains voltage or frequency. IoT Ready: Access the mini air cooler’s system parameters from any location via the integrated Ethernet interface, also allowing remote control, service and even firmware update. Your customized air cooler: The mAC-C-400-24 cannot cover your requirements? AMS Technologies’ thermal management specialists are happy to develop a solution tailored to your needs – based on compressor or Peltier technology – and offer all services from development and proof-of concept to series production. Get in touch with us now to discuss your customized air cooler. Specifications: Cooling Capacity: 400 W @+26°C Tchilled cabinet air +35°C Tambient Temperature Stability: ±0.05 K External Working Temperature Range: +10°C to +50°C Internal Working Temperature Range: +15°C to +35°C Operating Voltage: 24 VDC Max. Operating Current: 13 A Max. Power Consumption: 310 W Refrigerant: R134a, 130 g (0.19 tequCO2) Dimensions: 310 x 157 x 475 mm Weight: 15 kg Orientation: Flush Mount, Side Wall or Door Environmental Protection Level, Enclosure Side: IP2X Environmental Protection Level, Ambient Side: IP65 Approvals: CE Applications: Cabinet Cooling; Cooling of Air inside Cabinets for Applications With up to 400 W Power Dissipation; Harsh Environments