SBOU252 August 2021 OPA4991 , OPA4991-Q1 , TLV9004 , TLV9004-Q1
Figure 4-5 displays the schematic for the non-inverting amplifier circuit configuration. To configure the EVM in a non-inverting configuration short RINP using a 0-Ω resistor or solder bridge, leave RVREF and CVREF unpopulated, and ground the input connection IN–. The input signal is applied directly to the high impedance non-inverting input terminal using the IN+ connection on the EVM.
| CH | RINM | RF |
CF |
RINP |
RIso |
CL |
|---|---|---|---|---|---|---|
| 1 | R1 | R2 |
C3 |
R3 |
R5 |
C5 |
| 2 | R7 | R8 |
C6 |
R9 |
R11 |
C8 |
| 3 | R13 | R14 |
C9 |
R15 |
R17 |
C11 |
| 4 | R19 | R20 |
C12 |
R21 |
R23 |
C14 |
Equation 4 displays the DC transfer function of the non-inverting amplifier circuit configuration shown in Figure 4-5. Note, Input signals IN+ and IN- are altered to INP and INM respectively in the transfer function for simplicity of the equation.
Capacitor CF provides the option to filter the output. The cutoff frequency, fc, of the filter can be calculated using Equation 5.
Resistor Riso, and capacitor CL provide the option to create a RC filter, or test output loads for the amplifier. When not applicable, use a zero ohm resistor for Riso and do not populate CL.
Figure 4-6 displays the DYY-AMP-EVM populated with the required components to configure channel 1 as a non-inverting amplifier with no load.