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SGM8624 Datasheet(PDF) 10 Page - SG Micro Corp |
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SGM8624 Datasheet(HTML) 10 Page - SG Micro Corp |
10 / 20 page 3MHz, Rail-to-Rail I/O SGM8621/2/3/4 CMOS Operational Amplifiers APPLICATION NOTES Driving Capacitive Loads The SGM8621/2/3/4 can directly drive 1000pF in unity-gain without oscillation. The unity-gain follower (buffer) is the most sensitive configuration to capacitive loading. Direct capacitive loading reduces the phase margin of amplifiers and this results in ringing or even oscillation. Applications that require greater capacitive driving capability should use an isolation resistor between the output and the capacitive load like the circuit in Figure 1. The isolation resistor RISO and the load capacitor CL form a zero to increase stability. The bigger the RISO resistor value, the more stable VOUT will be. Note that this method results in a loss of gain accuracy because RISO forms a voltage divider with the RLOAD. VIN VOUT SGM8621 CL RISO Figure 1. Indirectly Driving Heavy Capacitive Load An improved circuit is shown in Figure 2. It provides DC accuracy as well as AC stability. RF provides the DC accuracy by connecting the inverting input with the output. CF and RIso serve to counteract the loss of phase margin by feeding the high frequency component of the output signal back to the amplifier’s inverting input, thereby preserving phase margin in the overall feedback loop. VIN VOUT SGM8621 CL RISO RL RF CF Figure 2. Indirectly Driving Heavy Capacitive Load with DC Accuracy For non-buffer configuration, there are two other ways to increase the phase margin: (a) by increasing the amplifier’s closed-loop gain or (b) by placing a capacitor in parallel with the feedback resistor to counteract the parasitic capacitance associated with inverting node. Power-Supply Bypassing and Layout The SGM8621/2/3/4 operate from either a single +2V to +5.5V supply or dual ±1V to ±2.75V supplies. For single-supply operation, bypass the power supply +VS with a 0.1µF ceramic capacitor which should be placed close to the +VS pin. For dual-supply operation, both the +VS and the -VS supplies should be bypassed to ground with separate 0.1µF ceramic capacitors. 2.2µF tantalum capacitor can be added for better performance. Good PC board layout techniques optimize performance by decreasing the amount of stray capacitance at the op amp’s inputs and output. To decrease stray capacitance, minimize trace lengths and widths by placing external components as close to the device as possible. Use surface-mount components whenever possible. For the operational amplifier, soldering the part to the board directly is strongly recommended. Try to keep the high frequency current loop area small to minimize the EMI (electromagnetic interfacing). SGM8621 +VS Vn Vp -VS VOUT 10µF 0.1µF 10µF 0.1µF SGM8621 Vn Vp +VS -VS (GND) VOUT 10µF 0.1µF Figure 3. Amplifier with Bypass Capacitors Grounding A ground plane layer is important for SGM8621/2/3/4 circuit design. The length of the current path in an inductive ground return will create an unwanted voltage noise. Broad ground plane areas will reduce the parasitic inductance. Input-to-Output Coupling To minimize capacitive coupling, the input and output signal traces should not be in parallel. This helps reduce unwanted positive feedback. SG Micro Corp www.sg-micro.com 10 |
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