Datasheet
OPA227, 2227, 4227
OPA228, 2228, 4228
15
SBOS110A
www.ti.com
Without external compensation, the noise specification of
the OPA228 is the same as that for the OPA227 in gains of
5 or greater. With the additional external compensation, the
output noise of the of the OPA228 will be higher. The
amount of noise increase is directly related to the increase
in high frequency closed-loop gain established by the C
IN
/
C
F
ratio.
Figures 8 and 11 show the recommended circuit for gains
of +2 and –2, respectively. The figures suggest approximate
FIGURE 8. Compensation of the OPA228 for G =+2.
FIGURE 9. Large-Signal Step Response, G = +2, C
LOAD
=
100pF, Input Signal = 5Vp-p.
FIGURE 10. Small-Signal Step Response, G = +2, C
LOAD
=
100pF, Input Signal = 50mVp-p.
400ns/div
5mV/div
values for C
F
. Because compensation is highly dependent
on circuit design, board layout, and load conditions, C
F
should be optimized experimentally for best results. Fig-
ures 9 and 10 show the large- and small-signal step re-
sponses for the G = +2 configuration with 100pF load
capacitance. Figures 12 and 13 show the large- and small-
signal step responses for the G = –2 configuration with
100pF load capacitance.
200ns/div
25mV/div
FIGURE 11. Compensation for OPA228 for G = –2.
FIGURE 12. Large-Signal Step Response, G = –2, C
LOAD
=
100pF, Input Signal = 5Vp-p.
400ns/div
5mV/div
200ns/div
25mV/div
FIGURE 13. Small-Signal Step Response, G = –2, C
LOAD
=
100pF, Input Signal = 50mVp-p.
2kΩ
OPA228
22pF
2kΩ
100pF
2kΩ
1kΩ 2kΩ
15pF
OPA228
2kΩ
100pF
OPA228
OPA228
OPA228
OPA228