MCP6V07-E/MD

Microchip Technology

IC OPAMP ZERO-DRIFT 2 CIRC 8DFN

6298 Pcs New Original In Stock

Zero-Drift Amplifier 2 Circuit Rail-to-Rail 8-DFN (4x4)

Request Quote (Ships tomorrow)

*Quantity
Minimum 1

5.0 / 5.0 - (302 Ratings)

MCP6V07-E/MD

Name: Microchip Technology MCP6V07-E/MD
Brand: Microchip Technology
SKU: MCP6V07EMD
Price: 3.4872 USD
Availability: InStock
Rating: 5.0 (302 reviews)

Product Overview

12791631

DiGi Electronics Part Number

MCP6V07-E/MD-DG

Manufacturer

Microchip Technology

Manufacturer Product Number MCP6V07-E/MD

Description

IC OPAMP ZERO-DRIFT 2 CIRC 8DFN

Inventory

6298 Pcs New Original In Stock

Detailed Description Zero-Drift Amplifier 2 Circuit Rail-to-Rail 8-DFN (4x4)

See all Instrumentation, Op Amps, Buffer Amps

Datasheet MCP6V07-E/MD Datasheet

Quantity
Minimum 1

Purchase and inquiry

Quality Assurance

365 - Day Quality Guarantee - Every part fully backed.

90 - Day Refund or Exchange - Defective parts? No hassle.

Limited Stock, Order Now - Get reliable parts without worry.

Global Shipping & Secure Packaging

Worldwide Delivery in 3-5 Business Days

100% ESD Anti-Static Packaging

Real-Time Tracking for Every Order

Secure & Flexible Payment

Credit Card, VISA, MasterCard, PayPal, Western Union, Telegraphic Transfer(T/T) and more

All payments encrypted for security

RFQ (Request for Quotations)

Submit your RFQ directly on the product detail page or the RFQ page.

Our sales team will respond within 24 hours.

Payment method

PayPal (recommended for new customers)

Credit Cards

Wire Transfer (T/T) – Available in USD, EUR, HKD, and other currencies.

Important Notice

You’ll receive a confirmation email after submitting an RFQ.

Didn’t get it? Check your spam folder and whitelist [email protected].

Prices and stock may change; we’ll reconfirm your order.

Questions? Contact us anytime.

Freight

Basic cost: USD 70.00

Actual cost may vary depending on weight and destination

Shipping method

Shipped from Hong Kong via FedEx/DHL/UPS/TNT

Delivery Time

In-stock items: Ready to ship in 1-2 days

Transit time: 3-5 business days (FedEx/DHL/UPS)

Special requests? Contact us: [email protected]

In Stock (All prices are in USD)

QTY Target Price Total Price
1 3.4872 3.4872
200 1.3502 270.0400
500 1.3025 651.2500
1000 1.2794 1279.4000

Better Price by Online RFQ.

Request Quote (Ships tomorrow)

* Quantity
Minimum 1

Company

Contact Name

Phone

E-mail

Delivery Address

Message

(*) is mandatory

We'll get back to you within 24 hours

MCP6V07-E/MD Technical Specifications

Datasheet & Documents

Datasheets

Download MCP6V07-E/MD Product Specification (PDF)

HTML Datasheet

MCP6V07-E/MD-DG

Environmental & Export Classification

RoHS Status ROHS3 Compliant

Moisture Sensitivity Level (MSL) 1 (Unlimited)

REACH Status REACH Unaffected

ECCN EAR99

HTSUS 8542.33.0001

Additional Information

Standard Package

Reviews

5.0/5.0-(Show up to 5 Ratings)

Cont***eFée

грудня 02, 2025

5.0

La conception du site est moderne et agréable, rendant chaque visite agréable et efficace.

Morg***ensch

грудня 02, 2025

5.0

Ich schätze die fairen Preise bei DiGi Electronics enorm, das macht das Shoppen angenehm und erschwinglich.

Horizo***plorer

грудня 02, 2025

5.0

Their focus on quality and service keeps clients coming back.

Publish Evalution

* Product Rating

(Normal/Preferably/Outstanding, default 5 stars)

★ ★ ★ ★ ★

* Evalution Message

Please enter your review message.

Please post honest comments and do not post ilegal comments.

Frequently Asked Questions (FAQ)

Can the MCP6V07-E/MD be used in low-power precision sensor applications where supply current must be under 350µA for both channels while maintaining sub-10µV offset stability over temperature?

Yes, the MCP6V07-E/MD is well-suited for low-power precision sensing due to its 300µA total supply current (for both channels) and ultra-low 3µV input offset voltage with minimal drift over the full industrial temperature range (-40°C to 125°C). Its zero-drift architecture actively corrects offset errors, making it ideal for applications like strain gauge or thermocouple amplification where long-term DC accuracy is critical. Ensure proper decoupling with a 100nF ceramic capacitor close to the supply pin to maintain stability in noise-sensitive environments.

How does the MCP6V07-E/MD compare to the LTC2050 in terms of drift performance and PCB layout sensitivity for high-precision weigh scale designs?

The MCP6V07-E/MD offers comparable 3µV offset voltage to the LTC2050 but with lower input bias current (6 pA vs. ~20 pA), improving performance with high-impedance sensors. While both are zero-drift amplifiers, the MCP6V07-E/MD has a lower 1.3 MHz gain-bandwidth product than the LTC2050’s 1.8 MHz, making it less prone to RF rectification and oscillation in suboptimal layouts. However, its 8-DFN (4x4) package with exposed pad requires careful PCB thermal design—solder the pad to a solid ground plane to minimize thermal EMFs and ensure consistent offset performance in weigh scale applications.

What are the key risks when replacing the MCP6V07-E/MD with the AD8532 in a battery-powered rail-to-rail input system operating from 1.8V?

Replacing the MCP6V07-E/MD with the AD8532 introduces several risks: the AD8532 has higher input offset voltage (typ. 50µV vs. 3µV) and lacks zero-drift correction, degrading DC accuracy in low-voltage systems. It also consumes more supply current (500µA per amplifier vs. 150µA per channel in the MCP6V07-E/MD), reducing battery life. Additionally, the AD8532's rail-to-rail input stage can exhibit phase reversal under overvoltage conditions, unlike the robust EMI-hardened input structure of the MCP6V07-E/MD. For precision 1.8V systems, the MCP6V07-E/MD remains superior in accuracy and reliability.

What layout and decoupling practices are critical for minimizing transient errors in the MCP6V07-E/MD when used in a noisy industrial environment?

To minimize transient errors in noisy environments, use a 100nF X7R ceramic capacitor directly between each VDD pin and the exposed ground pad of the MCP6V07-E/MD, and keep all traces short and direct. The zero-drift architecture can demodulate high-frequency noise, so add a small RC filter (e.g., 10Ω + 10nF) at the input if operating in high EMI conditions. Route sensitive traces away from switching nodes, and ensure the exposed pad is fully soldered to a solid ground plane to enhance thermal stability and reduce offset drift due to temperature gradients across the package.

Is the MCP6V07-E/MD suitable for direct replacement of the MCP6V01 in existing designs requiring improved output drive capability?

While the MCP6V07-E/MD and MCP6V01 share similar zero-drift performance, the MCP6V07-E/MD offers stronger 22mA output current per channel, compared to the MCP6V01’s 13mA, making it more suitable for driving lower-impedance loads like 50Ω transmission lines or active filters. However, verify that the increased slew rate (0.5V/µs vs. 0.3V/µs) does not introduce unintended overshoot in highly capacitive loads. The pin-compatible 8-DFN (4x4) package simplifies drop-in upgrades, but ensure the PCB layout supports thermal dissipation for sustained output current, especially above 85°C ambient.

Quality Assurance (QC)

DiGi ensures the quality and authenticity of every electronic component through professional inspections and batch sampling, guaranteeing reliable sourcing, stable performance, and compliance with technical specifications, helping customers reduce supply chain risks and confidently use components in production.

Quality Assurance