ZHCSCW7D October 2014 – February 2018 LMH5401
PRODUCTION DATA.
This test is run with single-ended inputs and differential inputs.
For tests with single-ended inputs, the standard EVM is used with no changes; see Figure 56. To provide a matched input, the unused input requires a broadband 50-Ω termination to connect. When using a four-port network analyzer, the unused input can be terminated with a broadband load, or can connect to the unused input on the four-port analyzer. The network analyzer provides proper termination. A network analyzer connects to the input and output of the EVM with 50-Ω coaxial cables and measures the forward transfer function (s21). The input signal frequency is swept with the signal level set for the required output amplitude.
The LMH5401 is fully symmetrical. Either input (IN+ or IN–) can be used for single-ended inputs. The unused input must be terminated. RF, RG1, and RG2 determine the gain. RT and RM enable matching to the source resistance. See the Test Schematics section for more information on setting these resistors per gain and source impedance requirements. Bandwidth is dependant on gain settings because this device is a voltage feedback amplifier. With a GBP of 8 GHz, the approximate bandwidth is calculated for a specific application requirement, as shown in Equation 2. Figure 57 shows a test schematic for differential input and output.
For tests with differential inputs, the same setup for single-ended inputs is used except all four connectors are connected to a network analyzer port. Measurements are made in true differential mode on the Rohde & Schwarz® network analyzer or in calculated differential mode. In each case, the differential inputs are each driven with a 50-Ω source. Table 1 and Table 2 lists the resistor values used in frequency response sweeps.