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Microchip Technology MCP6V62-E/MS — Memory (DRAM / SRAM / Flash / EEPROM)

Microchip MCP6V62-E/MS Zero-Drift Op-Amp, 1 MHz, 8-MSOP

MPNMCP6V62-E/MS
End of Life

Microchip MCP6V62-E/MS, dual zero-drift operational amplifier, 1 MHz gain bandwidth, 0.45 V/µs slew rate, 8 µV input offset, 80 µA supply per two channels, rail-to-rail output, 8-MSOP package, -40°C to 125°C.

$2.2Ref. price · indicative, final on quote
Packaging8-TSSOP, 8-MSOP (0.118", 3.00mm Width)
StockContact for availability
MOQ1 pcs
  • 100% new & originalTraceable channels only — no refurbs, no pulls, no remarked parts.
  • Date & lot codes on quoteStated per line before you commit; label photos on request.
  • MSL-compliant ESD packingMoisture-sealed bags with indicator cards; reels photo-verified.
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Specifications

MCP6V62-E/MS Technical Specifications
ParameterValue
Output typeRail-to-Rail
Mounting typeSurface Mount
Amplifier typeZero-Drift
Voltage - input offset8 µV
Voltage - supply span5.5 V
Current - supply80µA (x2 Channels)
Current - input bias1 pA
Current - output (Channel)23 mA
Operating temperature-40°C ~ 125°C (TA)
Gain bandwidth product1 MHz
PackageTube
Slew rate0.45V/µs
Case8-TSSOP, 8-MSOP (0.118\", 3.00mm Width)
Number of circuits2

Product details

Dual zero-drift op-amp for precision DC measurement

The zero-drift architecture continuously samples and nulls the offset, so you get microvolt-level accuracy without trimming or calibration cycles on the production line.

80 µA supply current — built for battery-powered instruments

Each of the two amplifiers draws 80 µA total supply current, so the pair consumes about 160 µA quiescent. That is low enough to leave a CR2032 coin cell running for months in a portable data logger or a handheld field meter. The 1 MHz gain-bandwidth product and 0.45 V/µs slew rate are modest — this is not a high-speed video amp — but the bandwidth is adequate for low-frequency sensor conditioning, 1 kHz ADC sampling, or loop compensation in a slow control loop.

Industrial temperature range and 8-MSOP package

Surface-mount only; ships in tube.

Input bias current: 1 pA — handles high-impedance sources

With a typical input bias current of 1 pA, the MCP6V62 does not load high-impedance signal sources like pH probes, photodiode transimpedance stages, or high-value resistor dividers. The zero-drift topology also keeps the offset drift below a few tens of nV/°C, so the reading stays stable across the temperature range without a software correction table.

Frequently asked questions

What is the difference between the MCP6V61 and MCP6V62?

The MCP6V61 is a single-channel (one op-amp) version; the MCP6V62 is the dual-channel (two op-amps) version in the same zero-drift family.

Can the MCP6V62 be used as a comparator?

The MCP6V62 is not designed or specified for comparator use. Its output stage is optimized for linear operation, and the zero-drift auto-correction loop can cause instability when the amplifier is driven into saturation. For comparator applications, use a dedicated comparator such as the Microchip MCP6541 family.

What is the closest functional second-source to the MCP6V62-E/MS?

The MCP6L72T-E/SN is a general-purpose dual op-amp with 2 MHz GBWP and 0.9 V/µs slew rate, but it lacks zero-drift architecture and has a typical input offset of 1 mV — two orders of magnitude higher than the MCP6V62's 8 µV. For a zero-drift alternative, the single-channel MCP6V91UT-E/OT offers 10 MHz GBWP and 9.5 V/µs slew rate but draws 1.1 mA supply current and comes in a single-channel SOT-23 package. Neither is a drop-in replacement; the MCP6V62-E/MS remains the only dual zero-drift option in 8-MSOP at this supply current level.