GORE VNA Microwave/RF T T As Improved VNA performance with precise measurements GORE VNA Microwave/RF Test Assemblies set the industry standard for vector network analyzers (VNAs) through 67 GHz. Constant and/or highly repetitive movement of cables can compromise the measurement precision of high-performance VNAs. Leading manufacturers choose GORE VNA Microwave/RF Test Assemblies because of the improved performance they see in their equipment. These test assemblies are specifically engineered to provide the most precise VNA measurements under laboratory conditions. They deliver the highest accuracy and the greatest time interval between recalibrations. GORE VNA Microwave/RF Test Assemblies have a rugged, lightweight construction that enables longer service life, reduced downtime, and lower operating costs over the life of the equipment. Maximum FB FD FE FF Gore Connector Type Frequency (26.5 (40 (50 (67 Typical Applications (GHz) GHz) GHz) GHz) GHz) Vector network analyzers Benefits of GORE VNA Precision N Male 18 0AH 0AH 0AH Testing in lab environments Microwave/RF Test Assemblies Precision N Female 18 0AL 0AL 0AL Critical measurements Extremely precise measurements with stable electrical 7 mm performance up to 67 GHz 18 0HD 0HD 0HD Hermaphroditic Guaranteed Stability for Precise and Outstanding phase and amplitude stability with flexure Repeatable Measurements 3.5 mm Ruggedized 26.5 0HB 0HB 0HB DUT Male GORE VNA Microwave/RF Test Assemblies maintain excellent Excellent reliability with extremely rugged cable insertion loss and VSWR (Figure 1). Unlike conventionally designed RF 3.5 mm Female 26.5 0HC 0HC 0HC construction and NMD-style connectors that withstand test assemblies, Gores assemblies ensure accurate and repeatable repetitive mating, flexure, crushing, twisting, and bending 2.92 mm Ruggedized 40 0HR 0HR DUT Male Reduced downtime because of increased intervals 1 2.92 mm Female 40 0HQ 0HQ Figure 1: Typical VSWR Performance between calibrations 2.4 mm Ruggedized 50 0BM 2.0 DUT Male 1.9 2.4 mm Female 50 0BL measurements because of their excellent phase and amplitude 1.8 1.85 mm Ruggedized stability with flexure (Figures 2 and 3). Additional testing is 1.7 67 0CM DUT Male performed to guarantee this performance with flexure. See Table 1 1.6 1.85 mm Female 67 0CL for typical and guaranteed performance for each assembly. 1.5 Spec Limit 1.4 Prior to shipment, all GORE VNA Microwave/RF Test Assemblies 1.3 are tested for return loss, insertion loss, phase stability, and loss 1.2 stability up to their maximum operating frequency. Gore test methods 1.1 simulate real-world environments to ensure that the assembly 1.0 delivers precise and repeatable measurements in your application. 0 10 20 30 40 50 60 Frequency (GHz) 1 Data is based on Gores 50 GHz VNA assembly FE0BN0BM025.0. End B (Device Under Test Connector) VSWR semblies esGORE VNA Microwave/RF Tes T As Table 1: Product Specifications Gore Cable Type FB FD FE FF Length (in) 25 38 48 25 38 48 25 38 48 25 38 48 Maximum Frequency (GHz) 26.5 26.5 26.5 40 40 40 50 50 50 67 67 67 Typical VSWR 1.20:1 1.20:1 1.20:1 1.25:1 1.25:1 1.25:1 1.25:1 1.25:1 1.25:1 1.40:1 1.40:1 1.40:1 Maximum VSWR 1.29:1 1.29:1 1.29:1 1.35:1 1.35:1 1.35:1 1.43:1 1.43:1 1.43:1 1.50:1 1.50:1 1.50:1 Typical Insertion Loss (dB) 1.26 1.80 2.21 2.64 3.85 4.78 2.62 4.00 5.05 5.07 7.04 8.56 Maximum Insertion Loss (dB) 1.56 2.17 2.64 3.46 4.82 5.87 3.62 5.16 6.34 5.83 8.01 9.68 Impedance (Nominal) (Ohms) 50 Typical Phase Stability (degree) 2.0 2.0 3.0 1.5 3.0 3.0 1.5 4.0 4.0 4.0 5.0 7.0 Maximum Phase Stability (degree) 3.9 7.4 10.0 3.7 7.3 7.3 4.5 9.0 9.0 8.5 10.5 10.5 Typical Amplitude Stability (dB) 0.01 0.02 0.03 0.02 0.02 0.03 0.01 0.03 0.03 0.02 0.02 0.04 Maximum Amplitude Stability (dB) 0.08 0.15 0.25 0.08 0.15 0.25 0.08 0.15 0.25 0.10 0.15 0.25 Dielectric Constant (Nominal) 1.4 Velocity of Propagation (Nominal) (%) 85 Shielding Effectiveness (dB through 18 GHz) > 100 Time Delay (Nominal) ns/cm (ns/in) 0.04 (0.103) Nominal Weight g/m (oz/ft) 295.3 (3.2) Typical Flex Cycles 100,000 50,000 50,000 50,000 Minimum Bend Radius mm (in) 57.2 (2.25) Temperature Range (C) Laboratory conditions analyzer-specific (23 5) Crush Resistance kgf/cm (lbf/in) 143 (800) 1 1 Figure 2: Typical Phase Stability with Flexure Figure 3: Typical Amplitude Stability with Flexure 5.000 0.100 4.000 0.080 3.000 0.060 Upper Spec Limit Upper Spec Limit 2.000 0.040 Phase with Flexure Amplitude with Flexure Lower Spec Limit 1.000 0.020 Lower Spec Limit 0.000 0.000 -1.000 -0.020 -2.000 -0.040 -3.000 -0.060 -4.000 -0.080 -5.000 -0.100 0 10 20 30 40 50 60 0 10 20 30 40 50 60 Frequency (GHz) Frequency (GHz) 1 1 Data is based on Gores 50 GHz VNA assembly FE0BN0BM025.0. The assembly is Data is based on Gores 50 GHz VNA assembly FE0BN0BM025.0. The assembly is terminated with a short circuit and tested on a calibrated system. A mandrel of 2.25-inch terminated with a short circuit and tested on a calibrated system. A mandrel of 2.25-inch radius is placed midway down the assembly on either side. The assembly is bent radius is placed midway down the assembly on either side. The assembly is bent 180 degrees around the mandrel, forming a U shape. The assembly is held in this 180 degrees around the mandrel, forming a U shape. The assembly is held in this position for one full sweep. Maximum deviation over the frequency range of analysis is position for one full sweep. Maximum deviation over the frequency range of analysis is noted. The assembly is then returned to its straight position, and the VNA is renormalized. noted. The assembly is then returned to its straight position, and the VNA is renormalized. The mandrel is placed on the opposite side of the assembly and the test is repeated. The mandrel is placed on the opposite side of the assembly and the test is repeated. Electrical Properties Mech./Env. Properties Phase Change (deg.) Amplitude Change (dB) semblies