MCP6441_12 Datasheet, PDF(13/46 Page) Microchip Technology

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MCP6441_12 Datasheet, PDF (13/46 Pages) Microchip Technology – 450 nA, 9 kHz Op Amp

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4.0 APPLICATION INFORMATION

The MCP6441/2/4 op amp is manufactured using

Microchipâs state-of-the-art CMOS process, specifically

designed for low power applications.

4.1 Rail-to-Rail Input

4.1.1 PHASE REVERSAL

The MCP6441/2/4 op amp is designed to prevent

phase reversal, when the input pins exceed the supply

voltages. Figure 2-29 shows the input voltage

exceeding the supply voltage with no phase reversal.

4.1.2 INPUT VOLTAGE LIMITS

In order to prevent damage and/or improper operation

of the amplifier, the circuit must limit the voltages at the

input pins (see Section 1.1, Absolute Maximum

Ratings â ).

The Electrostatic Discharge (ESD) protection on the

inputs can be depicted as shown in Figure 4-1. This

structure was chosen to protect the input transistors

against many, but not all, over-voltage conditions, and

to minimize the input bias current (IB).

VDD

Bond

Pad

VIN+

Bond

Pad

Input

Stage

Bond

Pad

VINâ

VSS

Bond

Pad

FIGURE 4-1:

Structures.

Simplified Analog Input ESD

The input ESD diodes clamp the inputs when they try

to go more than one diode drop below VSS. They also

clamp any voltages that go well above VDD; their

breakdown voltage is high enough to allow normal

operation, but not low enough to protect against slow

over-voltage (beyond VDD) events. Very fast ESD

events that meet the spec are limited so that damage

does not occur.

MCP6441/2/4

In some applications, it may be necessary to prevent

excessive voltages from reaching the op amp inputs;

Figure 4-2 shows one approach to protecting these

inputs.

VDD

D1 D2

VOUT

MCP644X

FIGURE 4-2:

Inputs.

Protecting the Analog

A significant amount of current can flow out of the

inputs when the Common Mode voltage (VCM) is below

ground (VSS); see Figure 2-31.

4.1.3 INPUT CURRENT LIMITS

In order to prevent damage and/or improper operation

of the amplifier, the circuit must limit the currents into

the input pins (see Section 1.1 âAbsolute Maximum

Ratings â â).

Figure 4-3 shows one approach to protecting these

inputs. The resistors R1 and R2 limit the possible

currents in or out of the input pins (and the ESD diodes,

D1 and D2). The diode currents will go through either

VDD or VSS.

VDD

D1 D2

MCP644X

VOUT

min(R1,R2) >

VSS â min(V1, V2)

2 mA

min(R1,R2) >

max(V1,V2) â VDD

2 mA

FIGURE 4-3:

Inputs.

Protecting the Analog

DS22257C-page 13

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