Datasheet
OPA 836
1 kW
V
IN
R
G
R
F
C
F
V
OUT
Gain Magnitude - dB
-9
-6
-3
0
3
6
9
12
15
18
21
24
0 1 10 100 1000
f - Frequency - MHz
V = 5 V,
V = 100 mVpp,
G = 2,
R = 1 k
S
OUT
L
W
R = 100 k
F
W
R = 100 k
C = 1 pF
F
F
W
R = 10 k
F
W
R = 10 k
C = 1 pF
F
F
W
R = 1 k
F
W
OPA836
OPA2836
www.ti.com
SLOS712E –JANUARY 2011–REVISED SEPTEMBER 2013
Low Power Applications and the Effects of Resistor Values on Bandwidth
The OPA836 and OPA2836 are designed for the nominal value of R
F
to be 1 kΩ in gains other than +1. This
gives excellent distortion performance, maximum bandwidth, best flatness, and best pulse response. It also loads
the amplifier. For example; in gain of 2 with R
F
= R
G
= 1 kΩ, R
G
to ground, and V
OUT
= 4 V, 2 mA of current will
flow through the feedback path to ground. In gain of +1, R
G
is open and no current will flow to ground. In low
power applications, it is desirable to reduce this current by increasing the gain setting resistors values. Using
larger value gain resistors has two primary side effects (other than lower power) due to their interaction with
parasitic circuit capacitance.
1. Lowers the bandwidth.
2. Lowers the phase margin
(a) This will cause peaking in the frequency response.
(b) And will cause over shoot and ringing in the pulse response.
Figure 69 shows the small signal frequency response on OPA836EVM for non-inverting gain of 2 with R
F
and R
G
equal to 1 kΩ, 10 kΩ, and 100kΩ. The test was done with R
L
= 1 kΩ. Due to loading effects of R
L
, lower values
may reduce the peaking, but higher values will not have a significant effect.
Figure 69. Frequency Response with Various Gain Setting Resistor Values
As expected, larger value gain resistors cause lower bandwidth and peaking in the response (peaking in
frequency response is synonymous with overshoot and ringing in pulse response). Adding 1 pF capacitors in
parallel with R
F
helps compensate the phase margin and restores flat frequency response. Figure 70 shows the
test circuit used.
Figure 70. G = 2 Test Circuit for Various Gain Setting Resistor Values
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