8.2.1 Input and ESD Protection

The OPA659 is built using a very high-speed complementary bipolar process. The internal junction breakdown voltages are relatively low for these very small geometry devices. These breakdowns are reflected in the Absolute Maximum Ratings table. All device pins are protected with internal ESD protection diodes to the power supplies, as Figure 34 shows.

Figure 34. Internal ESD Protection

These diodes provide moderate protection to input overdrive voltages above the supplies as well. The protection diodes can typically support 30-mA continuous current. Where higher currents are possible (for example, in systems with ±12-V supply parts driving into the OPA659), current limiting series resistors should be added into the two inputs. Keep these resistor values as low as possible because high values degrade both noise performance and frequency response.

8.3.1 Split-Supply Operation (±3.5 V to ±6.5 V)

To facilitate testing with common lab equipment, the OPA659 may be configured to allow for split-supply operation. This configuration eases lab testing because the mid-point between the power rails is ground, and most signal generators, network analyzers, oscilloscopes, spectrum analyzers and other lab equipment reference their inputs and outputs to ground. Figure 36 and Figure 37 show the OPA659 configured in a simple noninverting and inverting configuration respectively with ±6-V supplies. The input and output will swing symmetrically around ground. Due to its ease of use, split-supply operation is preferred in systems where signals swing around ground, but it requires generation of two supply rails.

8.3.2 Single-Supply Operation (7 V to 13 V)

Many newer systems use single power supply to improve efficiency and reduce the cost of the extra power supply. The OPA659 is designed for use with split-supply configuration; however, it can be used with a single-supply with no change in performance, as long as the input and output are biased within the linear operation of the device. To change the circuit from split supply to single supply, level shift all the voltages by 1/2 the difference between the power supply rails. An additional advantage of configuring an amplifier for single-supply operation is that the effects of –PSRR will be minimized because the low supply rail has been grounded.