How to use a fully differential amplifier as a level shifter

Many signal paths are direct current (DC)-coupled, and this can lead to challenges when different portions of the signal path require different operating conditions. Many portions of a signal path are ground-referenced, where a signal varies at about an average or mid value of 0V. If all signals had the same reference voltage, DC coupling would be very easy. Unfortunately, that is not the case. Devices operating from a single supply like mixers or analog-to-digital converters (ADCs) will typically have a reference voltage (common mode) that is not 0V. Interfacing these devices while preserving DC information can be challenging.

Some circuit components such as fully differential amplifiers (FDAs) can help with this challenge. Making the best use of the FDA common mode shift capability requires some advanced planning, however. The first design consideration is to map out all of the DC operating points of your circuit in order to find which voltages need shifting and in what direction. The next step is to choose a power-supply configuration that will ease the voltage shift. While many devices operate from a “single supply,” it may not be possible to have all of your supply voltages positive. Figure 1 shows a simple example.

How to use a fully differential amplifier as a level shifter

As Figure 1 shows, the signal of interest is ground-referenced while the ADC input must be centered on 1.225V. The LMH5401 is a very broadband, DC-coupled FDA that can provide a common-mode shift. The LMH5401 can operate with about 0.5V of offset on the output and 1.0V on the input. The system shown in Figure 1 requires 1.225V of shift. By combining input and output shifts, you can achieve the necessary shift in one stage. The circuit does require custom power supplies of +3.5V and -1.5V. Simple, inexpensive switching power supplies can provide these supply voltages from a single 5V board supply bus.

The graph in Figure 2 shows the results from the circuit in Figure 3. Because differential probes will not capture common-mode data, you will need at least one single-ended probe in your circuit to measure the common-mode voltage. In Figure 3 there is only one such probe: V_OUTP. Because there is no DC offset shown in V_ADC (the differential probe), you know that the amplifier output pins are symmetrical and you don’t need another probe. The input signal is both single-ended and ground-referenced, so only one probe is required to capture the input signal.

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About The Author

Ibrar Ayyub

I am an experienced technical writer holding a Master's degree in computer science from BZU Multan, Pakistan University. With a background spanning various industries, particularly in home automation and engineering, I have honed my skills in crafting clear and concise content. Proficient in leveraging infographics and diagrams, I strive to simplify complex concepts for readers. My strength lies in thorough research and presenting information in a structured and logical format.

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