Datasheet MIC6211 (Microchip) - 6

制造商Microchip
描述The MIC6211 op amp is a general-purpose operational amplifier, that operates from 4V to 32V, single or differential (split) supply
页数 / 页7 / 6 — Applications Information. High-Pass Filter. Common-Mode Range and Output …
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Applications Information. High-Pass Filter. Common-Mode Range and Output Voltage. Voltage Buffer. Figure 4a. High-Pass Filter

Applications Information High-Pass Filter Common-Mode Range and Output Voltage Voltage Buffer Figure 4a High-Pass Filter

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MIC6211 Micrel, Inc.
Applications Information High-Pass Filter Common-Mode Range and Output Voltage
Figure 4 is an active filter with 20dB (10×) gain and a low- The input common-mode range of the MIC6211 is from the frequency cutoff of 10Hz. The high gain-bandwidth of the negative supply voltage to 1.2V below the positive supply MIC6211 allows operation beyond 100kHz. This filter con- voltage. The output voltage swings within 1V of the positive figuration is designed for split supplies. 0.1µF and negative supply voltage.
Voltage Buffer
332k Figure 1 shows a standard voltage follower/buffer. The output voltage equals the input voltage. This circuit is used to buffer 1µF 1µF 4 V a high impedance signal source. This circuit works equally IN 1 V well with single or split supplies. 7.5k OUT 3 3 VIN 1 VOUT
Figure 4a. High-Pass Filter
4 30 20 V 10 (dB) OUT= VIN 0 V OUT-10
Figure 1. Voltage Buffer
-20 1 10 1 10 100 1k 100k
Inverting Amplifier
1,000 10,000 100,000 FREQUENCY (Hz) Figure 2 shows an inverting amplifier with its gain set by the
Figure 4b. High-Pass Filter Response
ratio of two resistors. This circuit works best with split supplies, but will perform with single supply systems if the non-invert-
Summing Amplifier
ing input (+ input) is biased up above ground. Figure 5 is a single supply summing amplifier. In this con- R1 figuration, the output voltage is the sum of V1 and V2, minus R2 the sum of V3 and V4. By adding more resistors to either 4 VIN the inverting or non-inverting input, more voltages may be 1 VOUT summed. This single supply version has one important re- 3 striction: the sum of V1 and V2 must exceed the sum of V3  R1  V and V4, since the output voltage cannot pull below zero with OUT = –VIN  R2   only a single supply. R
Figure 2. Inverting Amplifer
V1 R V2 3
Voltage Controlled Current Sink
1 VOUT R Figure 3 is a voltage controlled current sink. A buffer transis- 4 tor forces current through a programming resistor until the R R feedback loop is satisfied. Current flow is V V3 IN/R. This circuit R works with single or split supplies. V4 Al resistors are equal. 3 V VOUT = V1 + V2 – V3 – V4 IN 1 V1 + V2 > V3 + V4 for single supply operation 4
Figure 5. Summing Amplifier
VIN R I R
Figure 3. Voltage Controlled Current Sink
MIC6211 6 April 2006