![]() Test Port Cable, Flexible, Phase Stable, DC to 40 GHz, K(f) to K(f), 63.5 cm (25 in), 50 Ω Test Port Cable, Flexible, Phase Stable, DC to 40 GHz, K(f) to K(m), 63.5 cm (25 in), 50 Ω Test Port Cable, Flexible, Phase Stable, DC to 26.5 GHz, K(f) to 3.5 mm(m), 63.5 cm, 50 Ω Test Port Cable, Armored, Phase Stable, 1.0 m (39”), DC to 20 GHz, K(m) to K(f), 50 Ω Test Port Cable, Armored, Phase Stable, 1.0 m (39”), DC to 20 GHz, 3.5 mm(m) to 3.5 mm(f), 50 Ω Test Port Cable, Flexible, Phase Stable, 1.0 m (39”), DC to 18 GHz, N(m) to N(m), 50 Ω Test Port Cable, Flexible, Phase Stable, 1.5 m (59”), DC to 18 GHz, N(f) to N(m), 50 Ω ![]() Test Port Cable, Flexible, Phase Stable, 1.0 m (39”), DC to 18 GHz, N(f) to N(m), 50 Ω Test Port Cables, Flexible, Ruggedized, Phase Stable Precision Adapter, V(m) to K(f), DC to 43.5 GHz, 50 Ω Precision Adapter, V(m) to K(m), DC to 43.5 GHz, 50 Ω Precision Adapter, V(f) to K(f), DC to 43.5 GHz, 50 Ω ![]() Precision Adapter, V(f) to K(m), DC to 43.5 GHz, 50 Ω Precision Adapter, K(m) to K(f), DC to 40 GHz, 50 ΩĬalibration Grade Adapter, K(m) to K(m), DC to 43.5 GHz, 50 ΩĬalibration Grade Adapter, K(m) to K(f), DC to 43.5 GHz, 50 ΩĬalibration Grade Adapter, K(f) to K(f), DC to 43.5 GHz, 50 Ω Precision Adapter, K(f) to K(f), DC to 40 GHz, 50 Ω Precision Adapter, K(m) to K(m), DC to 40 GHz, 50 Ω Precision Adapter, N(f) to K(f), DC to 18 GHz, 50 Ω Precision Adapter, N(f) to K(m), DC to 18 GHz, 50 Ω Precision Adapter, N(m) to K(f), DC to 18 GHz, 50 Ω Precision Adapter, N(m) to K(m), DC to 18 GHz, 50 Ω Simulate various types of targets in testing pulsed radars.Quad pulse signal generation and pulse sweep No filtering needed to reduce harmonics/spurious when used as clock source.Enhance accuracy of SFDR and THD measurements for ADC/DACs.Enhance accuracy of nonlinear measurements such as P1 dB, IP2 and IP3 for amplifiers and mixers.Better instrument availability as there is no need to send the signal generator to external labs.Calibrate level and frequency as often as necessary to ensure needed accuracy.Use as highly accurate and stable clock source.Use as frequency accurate and stable LO in up/down conversion applications.Use as frequency reference: With option 66 output frequency accuracy of signal generator is traceable to that from a national standard lab reference in real time.Use as high frequency clock source with very low jitterĪtomic clock frequency stability and accuracy.Use as LO source with low noise contribution for frequency up/down conversion in testing of Pulsed radars receivers and Communication transceivers.Make true ENOB measurements of high resolution, Gbit ADC/DACs.Very low phase noise, close in and far out Standard drivers such as IVI.NET and IVI-C along with support of SCPI commands make remote programming of Rubidium quick and efficient. Four USB 3.0 ports on the front panel enable connecting to a variety of devices such as memory devices and Anritsu's USB power sensors. Rubidium features a 7 inch touch screen along with keypad and dial on the front panel. Wide range of signal simulation capabilities are built into the signal generators for pulsed radar testing, as well. ![]() Simultaneous modulation of AM/FM, AM/PM, or FM/Pulse is possible to generate complex modulation waveforms such as chirps. Rubidium’s AM, FM/PM and Pulse modulation capabilities enable generation of wide range of complex analog modulated signals. The exceptional frequency stability makes Rubidium an ideal signal generator for Metrology and high speed clock applications. Alternatively, customers can also get exceptional frequency stability by locking an internal oven controlled crystal oscillator (OCXO) reference to an external GNSS/GPS signal. Rubidium MG362x1A offers atomic clock frequency stability with an internal rubidium frequency reference option. Coupled with best-in-class harmonic and spurious performance, Rubidium signal generator offers industry leading overall signal purity performance that enables customers to make more accurate measurements. Rubidium™ pushes the envelope in phase noise performance with its low and ultra low phase noise options. Signal purity determines quality of measurements in several applications such as radar, transceiver, ADC/DAC and components testing.
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