High voltage and high-power reed relays are engineered for demanding applications that require reliable switching of elevated voltages and currents. These relays support switching voltages up to 1,000 VDC in compact packages, making them ideal for use in automotive systems, solar energy, EV battery management, medical devices, and automated test equipment (ATE).

For extreme voltage requirements, specialized models are available that switch up to 10,000 VDC, with breakdown voltage ratings reaching 15,000 VDC. These high-voltage relays are trusted in critical medical technologies such as portable defibrillators and electrosurgical generators, where insulation integrity and safety are paramount.

Designed with robust isolation, high dielectric strength, and low contact resistance, these relays offer long operational life and stable performance in high-energy environments. Their compact form factors and versatile configurations make them suitable for both high-voltage isolation and high-current control across a wide range of industries.

• 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.

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

Shielded, coaxial opens are used in the calibration of vector network analyzers to provide a nominal 180° phase offset from a compatible reference short over a wide range of frequencies. At these frequencies, open circuit terminations are inherently imperfect. Shielding the open essentially eliminates radiation loss, but creates a residual frequency-sensitive capacitance. An accurate knowledge of the open’s effective capacitance is essential to an accurate calibration of the analyzer. Maury opens are characterized for effective capacitance versus frequency by means of a fourth order polynomial curve fit, and the nominal capacitance coefficients are provided with each unit.

Intrinsically safe reed relays and optocouplers are engineered for use in hazardous environments where ignition prevention is critical. Certified to ATEX standards and tested to ensure they do not become ignition sources, even in the presence of short circuits or adjacent component failures—these components are ideal for applications in explosive atmospheres such as mining, chemical processing, refineries, and power stations.

Designed to meet EN50020 safety standards, these relays and optocouplers feature tightly controlled air and creepage paths, high dielectric strength, and low-voltage coil inputs. With a maximum peak voltage of 375 V across input and output, and isolation distances up to 10 mm, they ensure safe operation under overload conditions. The Comparative Tracking Index (CTI) of the plastics used exceeds 175, and internal potting compounds provide additional insulation for long-term reliability.

• Low noise 
• Excellent line⁄load regulation 
• Coarse and fine voltage controls 
• Constant voltage or constant current operation with automatic crossover and mode indication 
• Individual ON⁄Off switch per output (not including fixed output) 
• Switchable 3.3V⁄5V output on triple output model 
• Switchable remote sense (XPH 1810 and XPH 4210 models)

• Capture/display/analyze peak and average power
• Frequency range from 4 kHz to 40 GHz
  • Industry-leading video bandwidth (195 MHz) and rise time (3 ns)
  • Industry-leading 100,000 measurements per second
  • Industry-leading 100 ps time resolution
• Synchronous multi-channel measurements (up to 4 channels)
• Sensors can be used as standalone instruments

• High Power Density: Up to 15 kW in 3U, 30 kW in a 6U chassis 
• Wide Voltage Range: 0-10V up to 0-1000V, from 4 to 30 kW 
• Fast Load Transient Response: Protection from undesired voltage excursions 
• Low Ripple and Noise 
• Intuitive Touch Screen Display 
• Parallelable up to 150 kW 
•  Sequencing: Free system controller & speed up test 
• Low audible noise: Temperature controlled variable speed fans

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

Fixed flush and fixed offset short circuit terminations (shorts) are used to establish reference planes in transmission systems and as key elements in the calibration of vector network analyzers (VNAs). Offset shorts can be used for banded calibrations of VNA. Those with the longest offset are often used to evaluate the calibration effectiveness of a VNA by measuring the effective source match after calibration.