MIC7300 Datasheet, PDF(9/12 Page) Micrel Semiconductor – High-Output Drive Rail-to-Rail Op Amp Preliminary Information

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MIC7300 Datasheet, PDF (9/12 Pages) Micrel Semiconductor – High-Output Drive Rail-to-Rail Op Amp Preliminary Information

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MIC7300

the phase lag caused by feedback resistor RFB and input

capacitance CIN. The value of CFB is determined by first

estimating CIN and then applying the following formula:

RIN Ã CIN â¤ RFB Ã CFB

CFB

RFB

RIN

VIN

CIN

VOUT

Figure 2. Cancelling Feedback Phase Lag

Since a significant percentage of CIN may be caused by board

layout, it is important to note that the correct value of CFB may

change when changing from a breadboard to the final circuit

layout.

Typical Circuits

Some single-supply, rail-to-rail applications for which the

MIC7300 is well suited are shown in the circuit diagrams of

Figures 3 through 7.

V+

2.2V to 10V

VIN

0V to V +

5 MIC7300

VOUT

0V to V+

R1 910k

100k

Figure 3a. Noninverting Amplifier

1V0+0

= 1+

VIN (V)

100

Figure 3b. Noninverting Amplifier Behavior

V+

2.2V to 10V

VIN

0V to V+

5 MIC7300

VOUT

0V to V+

VOUT = VIN

Figure 4. Voltage Follower/Buffer

Micrel

0.5V to Q1 VCEO(sus)

V+

2.2V to 10V

VOUT

0V to V+

VIN

0V to 2V

5 MIC7300

IOUT

{ Q1

2N3904

VCEO = 40V

IC(max) = 200mA

Change Q1 and RS

for higher current

10â¦

1â2W

and/or different gain.

IOUT

VIN

= 100mA/V

shown

Figure 5. Voltage-Controlled Current Sink

0.001ÂµF

100k

V+

5 MIC7300

VOUT

V+

100k

R3 100k

100k

Figure 6. Square Wave Oscillator

CIN R1

33k

330k

V+

5 MIC7300

COUT VOUT

V+

330k

1ÂµF

330k

â R2

330k

33k

â10

Figure 7. AC-Coupled Inverting Amplifier

November 1999

MIC7300

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