LM358ADE4 Equivalent & Substitute Parts

Part Overview

The LM358ADE4 is a general-purpose operational amplifier manufactured by Texas Instruments, configured as a dual-channel (2 circuit) device in an 8-SOIC surface mount package. This part is classified as obsolete, with 926 pieces currently in stock. The LM358ADE4 operates across a supply voltage range of 3V to 30V and is suitable for applications requiring low-power, general-purpose amplification in the 0°C to 70°C temperature range.

Due to its obsolete product status, identifying equivalent and substitute parts is necessary to ensure design continuity, maintain supply chain reliability, and support long-term production requirements. Active alternatives with compatible electrical and mechanical specifications are available from multiple manufacturers.

Key Parameters

Parameter	LM358ADE4 Value	Unit	Substitution Relevance
Amplifier Type	General Purpose	—	Core functional classification
Number of Circuits	2	Channels	Dual-channel requirement
Gain Bandwidth Product	1.1 MHz	MHz	Frequency response capability
Slew Rate	0.3 V/µs	V/µs	Signal transition speed
Current - Input Bias	15 nA	nA	Input impedance characteristic
Voltage - Input Offset	2 mV	mV	DC accuracy specification
Current - Supply	500 µA (x2 Channels)	µA	Power consumption per channel
Current - Output / Channel	40 mA	mA	Output drive capability
Voltage - Supply Span (Min)	3 V	V	Minimum operating voltage
Voltage - Supply Span (Max)	30 V	V	Maximum operating voltage
Operating Temperature	0°C ~ 70°C	°C	Thermal operating range
Package / Case	8-SOIC (0.154", 3.90mm Width)	—	Physical footprint and pinout
Mounting Type	Surface Mount	—	Assembly compatibility
RoHS Status	ROHS3 Compliant	—	Environmental compliance

Substitute Part Grouping Explanation

Substitution of the LM358ADE4 is determined by strict alignment with the following electrical and mechanical parameters:

Primary Substitution Criteria:

Dual-channel general-purpose operational amplifier configuration
8-SOIC or equivalent 8-pin surface mount package with compatible pinout
Supply voltage range encompassing the 3V to 30V specification
Output current capability of 40 mA per channel or greater
Input offset voltage of 2 mV or lower
Gain bandwidth product of 1 MHz or higher
RoHS3 compliance and REACH unaffected status

Substitution Groups:

Group 1: Texas Instruments LM358 Series (Active Status) Parts LM358AM/NOPB, LM358AMX/NOPB, LM358M/NOPB, and LM358MX/NOPB are direct functional equivalents with active product status. These variants differ only in packaging format (Tube vs. Cut Tape) and inventory levels. All maintain the 8-SOIC package, dual-channel configuration, and core electrical specifications. The primary difference is increased supply current (1 mA vs. 500 µA) and extended maximum supply voltage (32V vs. 30V).

Group 2: Alternative Manufacturers (Active Status) Parts AP4310AMTR-G1 (Diodes Incorporated), BA10358F-E1, BA10358F-E2, BA2904F-E2, BA2904SF-E2 (Rohm Semiconductor), and LM258DR2G (onsemi) provide functional equivalence with extended operating temperature ranges and active product status. These alternatives maintain the dual-channel configuration and 8-pin surface mount package but exhibit variations in slew rate, supply current, output current, and thermal operating range.

Parameter Comparison

Part Number	Manufacturer	Product Status	GBW (MHz)	Slew Rate (V/µs)	Input Bias (nA)	Input Offset (mV)	Supply Current (µA)	Output Current (mA)	Supply Min (V)	Supply Max (V)	Temp Range (°C)	Package
LM358ADE4	Texas Instruments	Obsolete	1.1	0.3	15	2	500	40	3	30	0 ~ 70	8-SOIC
LM358AM/NOPB	Texas Instruments	Active	1	—	45	2	1000	40	3	32	0 ~ 70	8-SOIC
LM358AMX/NOPB	Texas Instruments	Active	1	—	45	2	1000	40	3	32	0 ~ 70	8-SOIC
LM358M/NOPB	Texas Instruments	Active	1	—	45	2	1000	40	3	32	0 ~ 70	8-SOIC
LM358MX/NOPB	Texas Instruments	Active	1	—	45	2	1000	40	3	32	0 ~ 70	8-SOIC
AP4310AMTR-G1	Diodes Incorporated	Active	1	0.5	20	0.5	150	40	3	36	-40 ~ 105	8-SOIC
BA10358F-E1	Rohm Semiconductor	Active	0.5	0.2	45	2	700	20	3	32	-40 ~ 85	8-SOIC
BA10358F-E2	Rohm Semiconductor	Active	0.5	0.2	45	2	700	20	3	32	-40 ~ 85	8-SOIC
BA2904F-E2	Rohm Semiconductor	Active	0.5	0.2	20	2	500	30	3	32	-40 ~ 125	8-SOIC
BA2904SF-E2	Rohm Semiconductor	Active	0.5	0.2	20	2	500	30	3	32	-40 ~ 105	8-SOIC
LM258DR2G	onsemi	Active	1	—	45	2	800	40	3	32	-25 ~ 85	8-SOIC

Engineering Selection Recommendations

Primary Recommendation: Texas Instruments LM358 Series

For direct replacement of the obsolete LM358ADE4, the Texas Instruments LM358AM/NOPB, LM358AMX/NOPB, LM358M/NOPB, or LM358MX/NOPB are the preferred substitutes. These parts maintain active product status, identical 8-SOIC packaging, dual-channel configuration, and equivalent electrical performance within the specified operating temperature range (0°C to 70°C). Selection between these variants depends on packaging requirements: Tube packaging for LM358AM/NOPB and LM358M/NOPB, or Cut Tape & Digi-Reel® for LM358AMX/NOPB and LM358MX/NOPB. All variants are ROHS3 compliant and REACH unaffected.

Secondary Recommendation: onsemi LM258DR2G

The LM258DR2G from onsemi provides functional equivalence with active product status and maintains the 8-SOIC package and dual-channel configuration. This part exhibits a gain bandwidth product of 1 MHz and output current of 40 mA per channel, matching the LM358ADE4 core specifications. The operating temperature range (-25°C to 85°C) extends below the original specification but remains suitable for standard industrial applications. ROHS3 compliance and REACH unaffected status are maintained.

Alternative Recommendation: Diodes Incorporated AP4310AMTR-G1

The AP4310AMTR-G1 offers enhanced performance characteristics including improved slew rate (0.5 V/µs vs. 0.3 V/µs), lower input offset voltage (0.5 mV vs. 2 mV), and extended operating temperature range (-40°C to 105°C). This part maintains 8-SOIC packaging, dual-channel configuration, and 40 mA output current per channel. The extended supply voltage range (3V to 36V) provides additional design flexibility. ROHS3 compliance and REACH unaffected status apply.

Conditional Recommendation: Rohm Semiconductor BA2904F-E2 or BA2904SF-E2

The BA2904F-E2 and BA2904SF-E2 are suitable for applications where extended operating temperature range is required (-40°C to 125°C and -40°C to 105°C respectively). These parts maintain dual-channel configuration, 8-SOIC packaging, and equivalent input offset voltage (2 mV). Note that output current per channel is 30 mA, which is lower than the LM358ADE4 specification of 40 mA. Selection of these parts requires verification that output current requirements do not exceed 30 mA per channel. ROHS3 compliance and REACH unaffected status are maintained.

Not Recommended: Rohm Semiconductor BA10358F-E1 and BA10358F-E2

While these parts maintain dual-channel configuration and 8-SOIC packaging, the output current per channel (20 mA) falls below the LM358ADE4 specification (40 mA). These parts are suitable only for applications with reduced output current requirements. The gain bandwidth product (0.5 MHz) is also significantly lower than the original specification (1.1 MHz).

Frequently Asked Questions (FAQ)

Q1: Can the LM358AM/NOPB directly replace the LM358ADE4 without circuit modifications?

A: Yes. The LM358AM/NOPB is a direct functional replacement for the LM358ADE4. Both parts feature identical 8-SOIC pinout, dual-channel configuration, and equivalent electrical specifications within the 0°C to 70°C operating range. The primary differences are increased supply current (1 mA vs. 500 µA) and extended maximum supply voltage (32V vs. 30V), which do not require circuit modifications. Verify that your power supply can accommodate the slightly higher current draw.

Q2: What is the key difference between LM358AM/NOPB and LM358AMX/NOPB?

A: The functional electrical specifications are identical. The difference is packaging format: LM358AM/NOPB is supplied in Tube packaging, while LM358AMX/NOPB is supplied in Cut Tape (CT) & Digi-Reel® format. Selection depends on your assembly process requirements and inventory management preferences.

Q3: Why do some substitute parts have lower output current specifications?

A: Output current capability is a fundamental electrical characteristic determined by the internal circuit design of each operational amplifier. Parts such as BA10358F-E1 and BA10358F-E2 are designed for lower output current applications (20 mA per channel). These parts are not suitable for applications requiring the full 40 mA output current of the LM358ADE4. Verify your circuit's output current requirements before selecting a substitute.

Q4: Is the AP4310AMTR-G1 compatible with the LM358ADE4 pinout?

A: Yes. The AP4310AMTR-G1 maintains the standard 8-SOIC pinout compatible with the LM358ADE4. The part is a dual-channel general-purpose operational amplifier with equivalent pin assignments. However, verify that your circuit design can accommodate the improved performance characteristics (higher slew rate, lower input offset voltage) if they affect circuit stability or compensation requirements.

Q5: Can I use BA2904F-E2 in place of LM358ADE4 if my application operates at temperatures below 0°C?

A: Yes, if your output current requirement does not exceed 30 mA per channel. The BA2904F-E2 extends the operating temperature range to -40°C to 125°C, making it suitable for low-temperature applications. However, the output current per channel (30 mA) is lower than the LM358ADE4 specification (40 mA). Verify that your circuit does not require output currents exceeding 30 mA per channel.

Q6: Are all substitute parts RoHS3 compliant?

A: Yes. All substitute parts listed in this reference are RoHS3 compliant and REACH unaffected. This ensures compliance with environmental regulations and supply chain requirements equivalent to the original LM358ADE4.

Q7: What is the difference between the LM258DR2G and LM358 series parts?

A: The LM258DR2G is manufactured by onsemi and maintains equivalent electrical specifications to the LM358 series (1 MHz gain bandwidth product, 40 mA output current per channel). The primary difference is the operating temperature range: LM258DR2G operates from -25°C to 85°C, while LM358 series parts operate from 0°C to 70°C. Both maintain 8-SOIC packaging and dual-channel configuration. Selection depends on your thermal operating requirements and preferred manufacturer.

Q8: Which substitute part offers the best performance improvement over the LM358ADE4?

A: The AP4310AMTR-G1 from Diodes Incorporated offers the most significant performance improvements: slew rate of 0.5 V/µs (vs. 0.3 V/µs), input offset voltage of 0.5 mV (vs. 2 mV), and extended operating temperature range (-40°C to 105°C). These improvements provide enhanced signal fidelity and thermal robustness. However, verify that your circuit design is compatible with these enhanced characteristics, as they may affect compensation networks or stability margins in existing designs.

Q9: Can I mix different substitute parts in the same circuit board?

A: Yes, provided that each part meets the electrical requirements of its specific circuit location. However, mixing parts from different manufacturers may introduce variations in performance characteristics such as slew rate, input offset voltage, and temperature coefficient. For critical applications, maintain consistency by using the same part number throughout the design.

Q10: What should I verify before finalizing a substitute part selection?

A: Verify the following parameters against your circuit requirements: (1) Output current per channel must meet or exceed your application's maximum output current demand; (2) Operating temperature range must encompass your thermal environment; (3) Supply voltage range must include your power supply specification; (4) Gain bandwidth product must support your signal frequency requirements; (5) 8-SOIC pinout compatibility with your PCB layout; (6) Packaging format (Tube, Cut Tape, or Digi-Reel®) must match your assembly process. Confirm RoHS3 compliance and REACH status for regulatory requirements.

Request Quote (Ships tomorrow)

Part Number

Quantity

Company

Contact Name

E-mail

Message