Southwest Microwave’s high performance End Launch connectors are designed to provide low VSWR, mode free wideband response to 110 GHz for single-layer and multi-layer printed circuit boards where the high frequency signal is on the top layer. Available in SMA (27 GHz), 2.92 mm (K) (40 GHz), 2.40 mm (50 GHz), 1.85 mm (V) (67 GHz) and 1.0 mm (W) (110 GHz).  Male and female options along with narrow body and bulkhead feed-through. Unique clamping mechanism accommodates board thickness up to .300” (7.62 mm). Robust, reusable and repairable. Multiple launch configurations provide the best possible match to circuit layout. Works on microstrip and grounded coplanar waveguide (GCPW) designs. Signal-layer microstrip and GCPW test boards available. Soldering is optional. 

SuperMini Board-to-Board solutions optimize interconnect performance for board-to-board stacking applications.  Available bullets enable board-to-board spacing as close as 3 mm, assuring transmission line dependability for tightly stacked PCBs. Low mating insertion force allows for an increased density of interconnections per board. Unique bullet design enables extended mating and de-mating cycles.

For microstrip or grounded coplanar waveguide (GCPW) designs, Southwest Microwave solderless vertical launch connectors provide optimal signal integrity and are reusable. Suitable for various board materials and thicknesses, the vertical launch connectors reduce footprint requirements without sacrificing performance, resulting in design and installation convenience.

Up to 4 GHz Bandwidth  ±60 V Offset Capability  ±800 mV Dynamic Range  50 kΩ DC Input Impedance  1.2x Attenuation for low additive noise  MCX terminated cable with wide variety of connections:  Solder-in (4 GHz)  Coaxial Cable to U.FL receptacle (3 GHz)  MCX PCB Mount (4 GHz)  Browser (500 MHz)  ProBus Interface

Fully Integrated: With the ProBus™ interface, the AP033 becomes an integral part of the oscilloscope. The probe sensitivity and offset can be controlled from the oscilloscope front panel, the probe front panel, or by using remote control commands (GPIB or RS-232). Sensitivity, offset, input capacitance, and common mode voltage range are displayed on the oscilloscope screen. When used with a LeCroy digital oscilloscope, no external power supply is required.

Easy to Use No need to break the circuit or insert a shunt Small form factors for use on crowded boards Variety of Applications

Differential active probes are like two probes in one. Instead of measuring a test point in relation to a ground point (like single-ended active probes), differential probes measure the difference in voltage of a test point in relation to another test point

Highest resolution - 12 bits all the time  Bigger Display, smaller footprint, most bench space  More capability, increased productivity

High voltage differential probes provide high CMRR over a broad frequency range to simplify the measurement challenges found in noisy, high common-mode power electronics environments. The probe’s design is easy-to-use and enables safe, precise high voltage floating measurements.

The PPE6KV-A and HVP120 can handle up to 6000 Vpeak transient overvoltages and are designed for probing up to 2000 Vrms and 1000 Vrms respectively. Fast rise times, excellent frequency response, and a variety of standard accessories make these probes safe and ideal for high voltage measurement applications

Up to 65 GHz  Up to 80 Channels @ 36 GHz  Up to 160 GS/s  Up to 512 Mpts/Ch  50 fs rms Sample Clock (Intrinsic) Jitter  Jitter Between All Channels of <130 fs rms

Static power analysis - like a dedicated power analyzer  Dynamic power analysis – capture more information  Complete test coverage – control system, power section, motor  Comprehensive mechanical interface  Harmonics calculation option  Vector display option (THREEPHASEVECTOR)  Waveform Transformations option (THREEPHASEdq0)  16 Channels with OscilloSYNC™