• High-quality construction with low-noise electrical performance
• Kelvin version for convenient 4-point measurements
• Replaceable coaxial probe tips, with choice of tip radii, and full electrical guard to the probe tip
• SSMC 50 connectors
• Ultra-low, fA and fF measurements from -65 º C to 150 º C

• Calibration-grade metrology standards
• Used for VNA calibration and/or calibration validation

Precision waveguide sections are a useful component in the VNA calibration validation process, and can also be used as sample holders for material measurements.

• Single or dual-channel display
• Agilent HP 437 & Agilent HP 438, and Boonton 4220A & 4230A emulation
• Automatically loads sensor data
• Simple software control via SCPI language
• IEEE-488 and RS-232 interfaces standard

The 4240 series of CW RF power meters provides the high speed measurement capability needed in a production environment, as well as the simplicity of operation required for bench top use. It provides very accurate measurements from -70 dBm to +44 dBm (sensor dependent) and has a rapid display update rate for tuning applications. The easy to read LCD displays both channels simultaneously with numeric and bar graph information.

• High performance GPS disciplined Time/Frequency standard 
• Ethernet Interface for management and control 
• Network Time Protocol (NTP) 
• Multiple 1PPS outputs with individual delay compensation 
• Multiple Low Phase Noise 10MHz outputs with software programmable level 
• Time Code outputs including Have Quick, IRIG A, IRIG B, IRIG E, IRIG G 
• Sync to GPS or to Have Quick/1PPS per ICD-GPS-060 
• Choice of internal disciplined OCXO or Rubidium Oscillator

• AWGN as high as +13 dBm
• Bandwidths up to 18 GHz
• Bandwidth, output power, and flatness can be modified for specific applications
• TTL controlled attenuation

The NC1000 Series amplified noise modules produce AWGN as high as +13 dBm, and have bandwidths up to 18 GHz. The high power modules are designed to test noise immunity for Cable TV equipment, secure communication channels, and military jamming systems. The lower power modules, <= 0 dBm, are random jitter sources for many applications including, PCIexpress, Infiniband, and 10 GigE. The Bandwidth, output power, and flatness can be modified for specific applications. A newly developed TTL controlled attenuation feature is also available.

The TEM horn antenna is an antenna used for conducting close proximity radiation immunity evaluation test (near electromagnetic field immunity test) of electromagnetic waves radiated from various wireless transmitters such as mobile devices. 

In the future, close proximity radiation immunity evaluation test using the TEM horn antenna is expected to expand to various product standards such as medical equipment (IEC 60601-1-2) and multimedia equipment (CISPR 35).NoiseKen's TEM horn antenna has a wide band, low VSWR, and wide electric field uniformity offering an ideal solution for an efficient close proximity radiation immunity test. 

• A TEM horn antenna compliant with IEC 61000-4-39 Ed.1. 
• Test without changing the antenna in the frequency range of 380MHz to 6GHz. 
• Low VSWR and high GAIN enable efficient electromagnetic wave radiation. 
• Wide field uniformity reduces the number of times of movement of the antenna when radiating the EUT. 
• Since the maximum point of the near electric field distribution for each frequency is at the center, enables radiation on the EUT based on the axis of the antenna. Hence, significantly simplifies test point alignment.

Safran’s SEEING™ 130 Wide includes a unique medium focal length catadioptric optics, limited by diffraction only and with ultra-low distortion, offering perfect imaging over 35 mm full-frame image format. It is fitted with a 10megapixel sensor. 

SEEING™ 130 Wide enables high Signal to Noise Ratio for multispectral (MS), hyperspectral (HS) and low light level imaging. SEEING™ 130 Wide includes a spectral filter with 23 bands covering Blue, Green, Red, Near InfraRed and Red Edge MS, for a broad spectral range between 475 and 900nm. SEEING™ 130 Wide has a large Field of View of 6.3° x 4.3° / 54 x 36 km2 from a 500km/310 miles orbit.

In addition to its a thermal design within a robust structure, SEEING™ 130 Wide has a low SWaP, saving launch and operational costs.

• High DC power density up to 150 kW in a single bay rack-mount cabinet. Up to 240 kW in a dual bay rack. 
• Fast load transient response provides protection from undesired voltage excursions. 
• Fast slew rate with exceptional rise/fall times for speed-critical applications. 
• Low ripple suitable for the most sensitive applications. 
• Low audible noise with temperature controlled variable speed fans. 
• High accuracy voltage/current measurements without external DMMs. 
• Modular architecture simplifies sparing and maintenance.