HIGH FREQUENCY APPLICATIONS
capacitors at the device pins in parallel with solid tantalum
10µF capacitors. Source resistance will affect high-frequency
peaking and step response overshoot and ringing. Best
response is usually achieved with a series input resistor of
25Ω to 200Ω, depending on the signal source. Response
with some loads (especially capacitive) can be improved
with a resistor of 10Ω to 150Ω in series with the output.
The BUF634’s excellent bandwidth and fast slew rate make it
useful in a variety of high frequency open-loop applications.
When operated open-loop, circuit board layout and bypassing
technique can affect dynamic performance.
For best results, use a ground plane type circuit board layout
and bypass the power supplies with 0.1µF ceramic chip
V+
OP AMP
RECOMMENDATIONS
OPA177, OPA1013
OPA111, OPA2111
OPA121, OPA234(1)
OPA130(1)
Use Low IQ mode. G = 1 stable.
(1)
C1
,
VO
OPA27, OPA2107
OPA602, OPA131(1)
Low IQ mode is stable. Increasing CL may cause
excessive ringing or instability. Use Wide BW mode.
OPA
BUF634
VIN
BW
OPA627, OPA132(1)
OPA637, OPA37
Use Wide BW mode, C1 = 200pF. G = 1 stable.
Use Wide BW mode. These op amps are not G = 1
stable. Use in G > 4.
NOTE: (1) C1 not required
for most common op amps.
Use with unity-gain stable
high speed op amps.
Wide BW mode
(if required)
V–
NOTE: (1) Single, dual, and quad versions.
FIGURE 4. Boosting Op Amp Output Current.
V+
G = +21
250Ω
5kΩ
Drives headphones
or small speakers.
1µF
OPA132
BUF634
VIN
BW
RL = 100Ω
THD+N
0.015%
0.02%
f
100kΩ
1kHz
20kHz
V–
FIGURE 5. High Performance Headphone Driver.
IO = ±200mA
VIN
±2V
C(1)
+24V
+
12V
–
10kΩ
10kΩ
OPA177
BUF634
+
pseudo
ground
Valve
10µF
BUF634
C(1)
+
12V
–
10Ω
NOTE: (1) System bypass capacitors.
FIGURE 6. Pseudo-Ground Driver.
FIGURE 7. Current-Output Valve Driver.
10kΩ
10kΩ
1kΩ
9kΩ
1/2
OPA2234
1/2
OPA2234
BUF634
Motor
BUF634
VIN
±1V
±20V
at 250mA
FIGURE 8. Bridge-Connected Motor Driver.
®
9
BUF634