Found 200 matches (page 8 of 20)
voltage" when LO and RF signals are in- phase, and the DC offset occurring when only the LO signal magnitude-and-phase quantities. When the network analyzer commands a signal to be outputted by Port 1, the signal reflected back to Port 1 by the D.U.T. (device under test) is detected and displayed as S11, while the signal passing through the D.U.T. and detected at Port 2 is displayed as S21. Similarly, a signal outputted by Port 2 yields S22, and that portion of the signal originating at Port 2
signal and delivers multiple output signals with specific phase and amplitude characteristics. The relationship between any two output signals • high isolation between each output signal • insertion loss proportional to the level of a common input signal. 3. Split an input signal into multi-outputs. 4. Combine ports A and B. As a power splitter, a signal applied at port S will be split so that identical signals ohms. An RF generator signal is applied to port A and an RF voltmeter reading is taken at port B. The
Figure 3, reproduced from Mini-Circuits data sheet. Use a signal generator to inject a 10 MHz signal to 700 46.1 800 44.0 900 52.0 1000 49.9 1050 48.1 (My signal generator does not go any further) Figure kinds of mea- surements: • Relative ones: Am I getting any gain or loss? How much? Is the signal the signal being measured. The meter requires an external supply from 12 to 20 V dc. Because of the can happily run from a sin- gle rail. Under these conditions, however, the signal must be left
Mini-Circuits Portable Test Equipment (PTE) models including smart power sensors, signal generators, mcl_rf_switch_controller64.dll Signal Generators mcl_gen.dll mcl_gen64.dll Power Meters mcl_pm.dll mcl_pm64.dll
1. Introduction The ISC-2425-25+ Industrial System Controller and Small Signal Generator board is a instructions will enable the user to exercise a quick start with the ISC-2425-25+ signal generator and system control board. The following load scenario will be used: The RF signal generator and power at which the signal generator is plugged in. If for whatever reason the application cannot find the signal generator board, it can be forced to use a specific port by editing the program’s
Introduction The ISC-2425-25+ Industrial System Controller and Small Signal Generator board is a powerful device with many capabilities. The ISC-series small signal generator boards can be operated by sending information about the use of commands supported by the firmware of the ISC-2425-25+ signal generator and and use the “ls /dev” command to view available devices. The signal generator board should appear as a first 2 digits). [power] – Maximum RF output power of the signal generator board in dBm. Syntax:
tries to define operating conditions for the RF generator which assure the reliability, longevity and safe operation of the device. This also means that operating the generator “outside” of the SOA conditions. 2. Recommended default settings As a rule of thumb, the default SOA settings for generator reflection occurs when there is a bad match at the output and RF returns to the generator. The SOA has two Reflection’ situation is signaled by the SOA. It will be reported upon an $ST command. [shutdown
coherent operating mode amongst an arbitrary number of Mini- Circuits ISC-2425-25+ signal generators. To achieve coherence, a cable to connect the modules and share the clock signal and software RF generators, the all the ISCs need to run off the same time base. This is achieved by daisy configuration. 0 – Standalone (default): Use onboard XCO. Do not output reference signal. 1 – Master: Use onboard XCO. Output reference signal to slaves using MLVDS. 2 – Slave: Use external clock
the energy is reflected back into the RF generator system. A match can be expressed in different tunes the RF signal towards the best matched frequency within a user-defined frequency range. The
detail how the GUI works with the Mini-Circuits system controller and signal generator, the Continuous Wave – Generates a continuous wave signal with the possibility to change the fre- quency, power and phase of the wave. PWM / Pulse Width Modulation – Alternates the RF signal between ON and properties of the RF signal. By default, only the controls for continuous wave (CW) mode are operation modes. Continuous Wave (CW): RF power in dBm RF power in watt Frequency of the signal
