MCP6V01DM-VOS Microchip Technology, MCP6V01DM-VOS Datasheet - Page 22

MCP6V01DM-VOS

Manufacturer Part Number

MCP6V01DM-VOS

Description

DEMO BOARD FOR MCP6V01

Manufacturer

Microchip Technology

Datasheets

1.MCP6V01RD-TCPL.pdf (44 pages)

2.MCP6V01DM-VOS.pdf (24 pages)

Specifications of MCP6V01DM-VOS

Channels Per Ic

1 - Single

Amplifier Type

Chopper (Zero-Drift)

Output Type

Rail-to-Rail

Slew Rate

0.5 V/µs

Current - Output / Channel

22mA

Operating Temperature

-40°C ~ 125°C

Voltage - Supply, Single/dual (±)

1.8 V ~ 5.5 V

Board Type

Fully Populated

Utilized Ic / Part

MCP6V01

Silicon Manufacturer

Microchip

Application Sub Type

Operational Amplifier

Kit Application Type

Amplifier

Silicon Core Number

MCP6V01, MCP6V03, MCP6V06, MCP6V08

Kit Contents

Board

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

-3db Bandwidth

Current - Supply (main Ic)

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

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MCP6V01/2/3

4.1.2

Figure 4-2

during the Normal Mode of operation (φ

capacitor (C

Since the Null Amplifier has very high gain, it

dominates the signal seen by the Main Amplifier. This

greatly reduces the impact of the Main Amplifier’s input

FIGURE 4-2:

Figure 4-3

during the Auto-zeroing Mode of operation (φ

signal goes directly through the Main Amplifier, and the

flywheel capacitor (C

tion on the Main Amplifier’s offset.

The Null Amplifier uses its own high open loop gain to

drive the voltage across C

offset voltage is almost zero. Because the principal

input is connected to V

corrects the offset at the current common mode input

voltage (V

the DC CMRR and PSRR very high also.

FIGURE 4-3:

4.1.3

The MCP6V01/2/3 op amps will show intermodulation

distortion (IMD), products when an AC signal is

present.

The signal and clock can be decomposed into sine

wave tones (Fourier series components). These tones

interact with the auto-zeroing circuitry’s non-linear

DS22058C-page 22

–

shows the connections between amplifiers

AUTO-ZEROING ACTION

INTERMODULATION DISTORTION

(IMD)

) and supply voltage (V

) corrects the Null Amplifier’s input offset.

Normal Mode of Operation (

Auto-zeroing Mode of Operation (

) maintains a constant correc-

+, the auto-zeroing action

to the point where its input

Amp.

Null

). This makes

). The hold

). The

); Equivalent Amplifier Diagram.

); Equivalent Diagram.

Amp.

Main

offset voltage on overall performance. Essentially, the

Null Amplifier and Main Amplifier behave as a regular

op amp with very high gain (A

voltage (V

Since these corrections happen every 100 µs, or so,

we also minimize slow errors, including offset drift with

temperature (ΔV

aging.

response to produce IMD tones at sum and difference

frequencies. IMD distortion tones are generated about

all of the square wave clock’s harmonics.

Clock randomization spreads the IMD tones across the

frequency spectrum, but cannot eliminate them. The

spread energy is low and is not correlated with the sig-

nal of interest, so it is not of concern for most precision

applications. See

REF

Figure 2-37

/ΔT

), 1/f noise, and input offset

Output

Buffer

and

) and very low offset

Figure

2-38.

OUT

MCP6V01DM-VOS Microchip Technology, MCP6V01DM-VOS Datasheet - Page 22

MCP6V01DM-VOS

Specifications of MCP6V01DM-VOS

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