LMP2016MM/NOPB Equivalent & Substitute Parts

Part Overview

The LMP2016MM/NOPB is a general purpose operational amplifier manufactured by Texas Instruments, featuring dual circuits in an 8-VSSOP package. This device delivers rail-to-rail output capability with a 3 MHz gain bandwidth product and operates across a 2.7 V to 5.25 V supply range. The product status is obsolete, necessitating identification of functionally equivalent alternatives for new designs and ongoing production requirements. Substitute parts must maintain compatibility with the 8-VSSOP/8-MSOP package footprint and support the operating temperature range of -40°C to 125°C.

Key Parameters

Parameter	LMP2016MM/NOPB	Unit
Amplifier Type	General Purpose	—
Number of Circuits	2	—
Output Type	Rail-to-Rail	—
Slew Rate	4	V/µs
Gain Bandwidth Product	3	MHz
Current - Input Bias	3	pA
Voltage - Input Offset	0.12	µV
Current - Supply (x2 Channels)	930	µA
Current - Output / Channel	17	mA
Voltage - Supply Span (Min)	2.7	V
Voltage - Supply Span (Max)	5.25	V
Operating Temperature	-40 to 125	°C
Package / Case	8-VSSOP, 8-MSOP (0.118", 3.00mm Width)	—
RoHS Status	ROHS3 Compliant	—
Moisture Sensitivity Level (MSL)	1 (Unlimited)	—

Substitute Part Grouping Explanation

Substitution of the LMP2016MM/NOPB is determined by the following critical parameters:

Package Compatibility: All substitute parts must use 8-VSSOP or 8-MSOP packages with 0.118" (3.00mm) width to ensure PCB footprint compatibility.

Dual Circuit Configuration: The part contains two independent amplifier circuits; substitutes must maintain this 2-circuit architecture.

Rail-to-Rail Output: The LMP2016MM/NOPB provides rail-to-rail output capability; substitute parts must support this specification.

Operating Temperature Range: The device operates from -40°C to 125°C; substitute parts must cover this full temperature range.

Supply Voltage Range: The part operates from 2.7 V to 5.25 V; substitute parts must support at minimum the 2.7 V minimum and ideally extend to 5.5 V maximum for broader application compatibility.

Compliance Requirements: All substitute parts must maintain ROHS3 compliance and MSL Level 1 rating.

The substitute parts are grouped into two categories based on amplifier type and performance characteristics:

Category 1 - General Purpose Amplifiers (Direct Functional Equivalents): LMP2022MM/NOPB, MCP6422T-E/MS, MAX4486AUA+T. These parts maintain general purpose amplifier classification with rail-to-rail output and dual circuits.

Category 2 - High-Performance CMOS Amplifiers (Enhanced Performance Alternatives): ADA4891-2ARMZ, ADA4891-2ARMZ-R7, ADA4891-2ARMZ-RL. These parts offer significantly higher slew rates and gain bandwidth products, suitable for applications requiring improved dynamic performance.

Category 3 - Ultra-Low Power CMOS Amplifiers (Power-Optimized Alternatives): BU7266FVM-TR, BU7266SFVM-TR, BU7486FVM-TR. These parts provide reduced supply current consumption, suitable for battery-powered or low-power applications.

Parameter Comparison

Part Number	Manufacturer	Amplifier Type	Slew Rate (V/µs)	GBW (MHz)	Input Bias (pA)	Input Offset (µV)	Supply Current (µA)	Output Current (mA)	Supply Min (V)	Supply Max (V)	Temp Range (°C)	Package	Status
LMP2016MM/NOPB	Texas Instruments	General Purpose	4	3	3	0.12	930	17	2.7	5.25	-40 to 125	8-VSSOP	Obsolete
LMP2022MM/NOPB	Texas Instruments	Zero-Drift	2.6	5	25	0.4	1100	50	2.2	5.5	-40 to 125	8-VSSOP	Active
MCP6422T-E/MS	Microchip Technology	General Purpose	0.05	0.09	1	1000	4.4	22	1.8	5.5	-40 to 125	8-MSOP	Active
MAX4486AUA+T	Analog Devices Inc./Maxim Integrated	General Purpose	20	7	0.1	300	2200	33	2.7	5.5	-40 to 125	8-uMAX/uSOP	Active
ADA4891-2ARMZ	Analog Devices Inc.	CMOS	210	105	2	2500	4400	125	2.7	5.5	-40 to 125	8-MSOP	Active
ADA4891-2ARMZ-R7	Analog Devices Inc.	CMOS	210	105	2	2500	4400	125	2.7	5.5	-40 to 125	8-MSOP	Active
ADA4891-2ARMZ-RL	Analog Devices Inc.	CMOS	210	105	2	2500	4400	125	2.7	5.5	-40 to 125	8-MSOP	Active
BU7266FVM-TR	Rohm Semiconductor	CMOS	0.0024	0.004	1	1000	700	4	1.8	5.5	-40 to 85	8-MSOP	Active
BU7266SFVM-TR	Rohm Semiconductor	CMOS	0.0024	0.004	1	1000	700	4	1.8	5.5	-40 to 105	8-MSOP	Active
BU7486FVM-TR	Rohm Semiconductor	CMOS	10	10	1	1000	6000	12	3	5.5	-40 to 105	8-MSOP	Active

Engineering Selection Recommendations

For Direct Replacement with Active Product Status:

LMP2022MM/NOPB is the manufacturer-recommended substitute from Texas Instruments. This zero-drift amplifier maintains the same 8-VSSOP package, dual-circuit configuration, and operating temperature range. The part is ROHS3 compliant with MSL Level 1 rating. While slew rate is reduced to 2.6 V/µs and gain bandwidth product is increased to 5 MHz, the supply voltage range extends to 5.5 V maximum, providing broader compatibility. Current supply consumption increases to 1.1 mA per channel, and output current capability increases to 50 mA per channel.

For General Purpose Applications with Enhanced Performance:

MAX4486AUA+T from Analog Devices Inc./Maxim Integrated provides general purpose amplification with improved slew rate (20 V/µs) and gain bandwidth product (7 MHz). The part maintains rail-to-rail output, dual circuits, and full -40°C to 125°C operating range. Package is 8-uMAX/uSOP, which is mechanically compatible with 8-MSOP footprints. ROHS3 compliance and MSL Level 1 rating are maintained. Supply current increases to 2.2 mA per channel.

For High-Speed Applications:

ADA4891-2ARMZ, ADA4891-2ARMZ-R7, and ADA4891-2ARMZ-RL from Analog Devices Inc. deliver significantly enhanced performance with 210 V/µs slew rate and 105 MHz gain bandwidth product. These CMOS amplifiers maintain rail-to-rail output, dual circuits, and -40°C to 125°C operating range. Package is 8-MSOP, compatible with the original footprint. All variants are ROHS3 compliant with MSL Level 1 rating. Packaging options differ: standard tube (ADA4891-2ARMZ), cut tape with Digi-Reel (ADA4891-2ARMZ-R7), and tape & reel (ADA4891-2ARMZ-RL). Supply current increases to 4.4 mA per channel, and output current capability increases to 125 mA per channel.

For Ultra-Low Power Applications:

BU7266FVM-TR and BU7266SFVM-TR from Rohm Semiconductor provide minimal supply current consumption at 700 nA per channel. These CMOS amplifiers maintain dual circuits and rail-to-rail output with 8-MSOP package compatibility. ROHS3 compliance and MSL Level 1 rating are maintained. BU7266FVM-TR operates to 85°C maximum, while BU7266SFVM-TR extends to 105°C. Minimum supply voltage is 1.8 V, enabling ultra-low voltage applications. Slew rate and gain bandwidth product are significantly reduced (0.0024 V/µs and 4 kHz respectively), suitable only for DC and very low-frequency applications.

For Moderate Performance with Low Power:

BU7486FVM-TR from Rohm Semiconductor balances performance and power consumption with 10 V/µs slew rate and 10 MHz gain bandwidth product. Supply current is 6 mA per channel. The part maintains dual circuits, rail-to-rail output, and 8-MSOP package compatibility. ROHS3 compliance and MSL Level 1 rating are maintained. Operating temperature range extends to 105°C. Minimum supply voltage is 3 V.

For Micropower Applications with Minimal Bandwidth:

MCP6422T-E/MS from Microchip Technology provides ultra-low supply current at 4.4 µA per channel with extended supply voltage range from 1.8 V to 5.5 V. The part maintains general purpose amplification, dual circuits, and rail-to-rail output with 8-MSOP package compatibility. ROHS3 compliance and MSL Level 1 rating are maintained. Operating temperature range is -40°C to 125°C. Slew rate is 0.05 V/µs and gain bandwidth product is 90 kHz, suitable for precision measurement and sensor interface applications.

Frequently Asked Questions (FAQ)

Q: Can LMP2022MM/NOPB directly replace LMP2016MM/NOPB in existing designs?

A: LMP2022MM/NOPB is the manufacturer-recommended substitute and maintains the same 8-VSSOP package footprint and dual-circuit configuration. Both parts operate across -40°C to 125°C and support rail-to-rail output. However, electrical characteristics differ: slew rate decreases from 4 V/µs to 2.6 V/µs, while gain bandwidth product increases from 3 MHz to 5 MHz. Supply current increases from 930 µA to 1.1 mA per channel. Circuit validation is required to confirm compatibility with specific application requirements.

Q: What is the primary difference between the ADA4891-2ARMZ variants (standard, -R7, -RL)?

A: The three ADA4891-2ARMZ variants are electrically identical with identical performance specifications. The differences are in packaging and delivery format: ADA4891-2ARMZ is supplied in tube packaging, ADA4891-2ARMZ-R7 is supplied in cut tape with Digi-Reel format, and ADA4891-2ARMZ-RL is supplied in tape & reel format. Selection depends on manufacturing process requirements and inventory management preferences.

Q: Are all substitute parts compatible with the original 8-VSSOP package footprint?

A: Most substitute parts use 8-MSOP or 8-uMAX/uSOP packages, which are mechanically compatible with the original 8-VSSOP footprint. All specified packages maintain 0.118" (3.00mm) width and 8-pin configuration. PCB layout compatibility is ensured for standard surface mount assembly processes. Verify specific package dimensions with component datasheets for custom or high-density layouts.

Q: Which substitute part offers the lowest power consumption?

A: BU7266FVM-TR and BU7266SFVM-TR provide the lowest supply current at 700 nA per channel. These parts are suitable for battery-powered and ultra-low-power applications. However, performance is severely limited with 0.0024 V/µs slew rate and 4 kHz gain bandwidth product, restricting use to DC and very low-frequency signal conditioning. MCP6422T-E/MS offers a practical balance with 4.4 µA per channel supply current and 90 kHz bandwidth for precision measurement applications.

Q: What is the operating temperature limitation for Rohm Semiconductor parts?

A: BU7266FVM-TR operates to 85°C maximum ambient temperature. BU7266SFVM-TR and BU7486FVM-TR extend to 105°C maximum. The original LMP2016MM/NOPB and most other substitutes support the full -40°C to 125°C range. For applications requiring full -40°C to 125°C operation, select LMP2022MM/NOPB, MCP6422T-E/MS, MAX4486AUA+T, or ADA4891 variants.

Q: Are all substitute parts ROHS3 compliant?

A: All substitute parts listed are ROHS3 compliant with MSL Level 1 (unlimited moisture sensitivity level). This ensures compatibility with standard manufacturing processes and long-term storage without special handling requirements.

Q: Which substitute provides the highest output current capability?

A: ADA4891-2ARMZ, ADA4891-2ARMZ-R7, and ADA4891-2ARMZ-RL provide 125 mA output current per channel, compared to 17 mA for the original LMP2016MM/NOPB. These parts are suitable for applications requiring direct drive of capacitive loads or low-impedance outputs.

Q: Can MCP6422T-E/MS operate at the minimum 2.7 V supply voltage of the original part?

A: MCP6422T-E/MS has a minimum supply voltage of 1.8 V, which is lower than the original 2.7 V minimum. This part is fully compatible with 2.7 V operation and extends functionality to lower voltage applications. Maximum supply voltage is 5.5 V, providing broader compatibility than the original 5.25 V maximum.

Q: What is the key performance trade-off when selecting BU7486FVM-TR over ADA4891 variants?

A: BU7486FVM-TR provides moderate performance (10 V/µs slew rate, 10 MHz bandwidth) with significantly lower supply current (6 mA per channel) compared to ADA4891 variants (210 V/µs slew rate, 105 MHz bandwidth, 4.4 mA per channel). Selection depends on whether the application requires high-speed performance or power efficiency. BU7486FVM-TR is suitable for general-purpose signal conditioning with reduced power consumption.

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