TLV2313IDR Equivalent & Substitute Parts

Part Overview

The TLV2313IDR is a general-purpose operational amplifier manufactured by Texas Instruments, featuring dual circuits in an 8-SOIC surface-mount package. This device operates across a supply voltage range of 1.8 V to 5.5 V with rail-to-rail output capability, making it suitable for low-voltage analog signal processing applications. The part is currently in active production status with 1900 units in stock. Substitute parts are identified when equivalent electrical performance, mechanical compatibility, and compliance certifications align with the original specification, enabling design flexibility and supply chain optimization.

Key Parameters

Parameter	Value	Unit
Manufacturer Part Number	TLV2313IDR	—
Manufacturer	Texas Instruments	—
Category	Linear, Amplifiers	—
Amplifier Type	General Purpose	—
Number of Circuits	2	—
Output Type	Rail-to-Rail	—
Package / Case	8-SOIC (0.154", 3.90mm Width)	—
Mounting Type	Surface Mount	—
Voltage - Supply Span (Min)	1.8	V
Voltage - Supply Span (Max)	5.5	V
Operating Temperature	-40 to 125	°C
Gain Bandwidth Product	1	MHz
Slew Rate	0.5	V/µs
Current - Input Bias	1	pA
Voltage - Input Offset	750	µV
Current - Supply	65 (x2 Channels)	µA
Current - Output / Channel	15	mA
RoHS Status	ROHS3 Compliant	—
Moisture Sensitivity Level (MSL)	2 (1 Year)	—
Product Status	Active	—

Substitute Part Grouping Explanation

Substitute parts for the TLV2313IDR are selected based on strict electrical and mechanical compatibility criteria. The following parameters define substitution eligibility:

Critical Matching Parameters:

Package / Case: 8-SOIC (0.154", 3.90mm Width) — mechanical and pin compatibility
Number of Circuits: 2 — functional equivalence
Output Type: Rail-to-Rail — output swing capability
Mounting Type: Surface Mount — assembly compatibility
Category: Linear, Amplifiers — functional classification

Electrical Performance Parameters (within acceptable tolerance):

Voltage - Supply Span: minimum 1.8 V to maximum 5.5 V (or compatible range)
Operating Temperature: -40°C to 125°C (or extended range)
Gain Bandwidth Product: 1 MHz (or higher)
Slew Rate: 0.5 V/µs (or higher)
Current - Input Bias: 1 pA (or lower)
Voltage - Input Offset: 750 µV (or lower)
Current - Supply: 65 µA per channel (or lower)
Current - Output / Channel: 15 mA (or higher)

Compliance Requirements:

RoHS3 Compliant
Active product status
REACH Unaffected
ECCN: EAR99

Substitutes meeting these criteria enable direct replacement without circuit redesign while maintaining functional performance and regulatory compliance.

Parameter Comparison

Parameter	TLV2313IDR	AZV832MTR-G1	LMV358IDT	LMV358IYDT	LMX358IDT	MAX4246ASA+	MCP6002-I/SN	MCP6002T-I/SN	MCP6272-E/SN	MCP6272T-E/SN	MCP6407-H/SN
Manufacturer	Texas Instruments	Diodes Inc.	STMicroelectronics	STMicroelectronics	STMicroelectronics	Analog Devices/Maxim	Microchip	Microchip	Microchip	Microchip	Microchip
Amplifier Type	General Purpose	CMOS	General Purpose	General Purpose	General Purpose	General Purpose	General Purpose	General Purpose	General Purpose	General Purpose	General Purpose
Number of Circuits	2	2	2	2	2	2	2	2	2	2	2
Output Type	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail	Rail-to-Rail
Package / Case	8-SOIC	8-SOIC	8-SOIC	8-SOIC	8-SOIC	8-SOIC	8-SOIC	8-SOIC	8-SOIC	8-SOIC	8-SOIC
Mounting Type	Surface Mount	Surface Mount	Surface Mount	Surface Mount	Surface Mount	Surface Mount	Surface Mount	Surface Mount	Surface Mount	Surface Mount	Surface Mount
Voltage - Supply Span (Min) [V]	1.8	1.6	2.7	2.7	2.3	2.5	1.8	1.8	2.0	2.0	1.8
Voltage - Supply Span (Max) [V]	5.5	5.5	6.0	6.0	5.5	5.5	6.0	6.0	6.0	6.0	6.0
Operating Temperature [°C]	-40 to 125	-40 to 85	-40 to 125	-40 to 125	-40 to 125	-40 to 125	-40 to 85	-40 to 85	-40 to 125	-40 to 125	-40 to 150
Gain Bandwidth Product [MHz]	1	1	1.3	1.3	1.3	1	1	1	2	2	1
Slew Rate [V/µs]	0.5	0.45	0.45	0.45	0.7	0.4	0.6	0.6	0.9	0.9	0.5
Current - Input Bias [pA]	1	1	16 nA	16 nA	27 nA	10 nA	1	1	1	1	1
Voltage - Input Offset [µV]	750	500	100	100	4000	400	4500	4500	3000	3000	800
Current - Supply [µA]	65 (x2)	70	162	162	130 (x2)	375 (x2)	100 (x2)	100 (x2)	170 (x2)	170 (x2)	45 (x2)
Current - Output / Channel [mA]	15	185	160	160	70	30	23	23	25	25	15
RoHS Status	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant	ROHS3 Compliant
Product Status	Active	Active	Active	Active	Active	Active	Active	Active	Active	Active	Active

Engineering Selection Recommendations

All listed substitute parts maintain active product status and ROHS3 compliance, ensuring regulatory alignment with the TLV2313IDR. Selection among substitutes depends on specific application requirements within the following categories:

Direct Electrical Equivalents (Minimal Performance Deviation): MCP6407-H/SN provides the closest electrical match to TLV2313IDR, with identical slew rate (0.5 V/µs), gain bandwidth product (1 MHz), current output per channel (15 mA), and supply current (45 µA x2 channels). Operating temperature extends to 150°C. This part is suitable for applications requiring minimal circuit redesign.

Low-Voltage Supply Applications (1.8 V Minimum): TLV2313IDR, MCP6002-I/SN, MCP6002T-I/SN, and MCP6407-H/SN support 1.8 V minimum supply voltage. AZV832MTR-G1 operates at 1.6 V minimum, enabling ultra-low-voltage designs. LMV358IDT, LMV358IYDT, and LMX358IDT require minimum 2.3 V to 2.7 V supply.

Extended Temperature Range Applications (-40°C to 125°C or Higher): TLV2313IDR, LMV358IDT, LMV358IYDT, LMX358IDT, MCP6272-E/SN, MCP6272T-E/SN, and MCP6407-H/SN support the full -40°C to 125°C range. MCP6407-H/SN extends to 150°C. AZV832MTR-G1, MCP6002-I/SN, and MCP6002T-I/SN are limited to -40°C to 85°C.

Automotive-Grade Applications: LMV358IYDT carries AEC-Q100 qualification and automotive grade designation, suitable for automotive and harsh-environment applications.

High Output Current Applications: AZV832MTR-G1 provides 185 mA per channel output current, significantly exceeding TLV2313IDR (15 mA). LMV358IDT and LMV358IYDT deliver 160 mA per channel.

Low Power Supply Current Applications: MCP6407-H/SN consumes 45 µA (x2 channels), the lowest among substitutes. TLV2313IDR consumes 65 µA (x2 channels).

Higher Bandwidth Applications: MCP6272-E/SN and MCP6272T-E/SN offer 2 MHz gain bandwidth product and 0.9 V/µs slew rate, suitable for faster signal processing.

Frequently Asked Questions (FAQ)

Q: Can I directly replace TLV2313IDR with any of the listed substitutes without circuit modification?

A: Direct replacement is possible only when the substitute operates within the same supply voltage range and temperature range as the original design. MCP6407-H/SN provides the closest electrical match. However, differences in input offset voltage, input bias current, and slew rate may affect circuit performance in precision applications. Verify that the substitute's electrical characteristics meet your circuit's tolerance requirements.

Q: What is the primary difference between TLV2313IDR and AZV832MTR-G1?

A: AZV832MTR-G1 is a CMOS amplifier with significantly higher output current capability (185 mA per channel versus 15 mA). It operates at lower minimum supply voltage (1.6 V versus 1.8 V) but is limited to -40°C to 85°C operating temperature. Select AZV832MTR-G1 for applications requiring high output current within the -40°C to 85°C range.

Q: Why do some substitutes have higher supply current consumption than TLV2313IDR?

A: Supply current consumption varies based on amplifier architecture and performance specifications. MAX4246ASA+ consumes 375 µA (x2 channels) due to its design for lower input offset voltage (400 µV) and higher output current capability (30 mA). MCP6407-H/SN achieves lower supply current (45 µA x2 channels) through optimized CMOS design. Select based on power budget requirements.

Q: Are all substitutes available in the same packaging format?

A: All listed substitutes use 8-SOIC (0.154", 3.90mm Width) surface-mount packaging, ensuring mechanical and pin compatibility. However, packaging format (Tape & Reel, Cut Tape, or Tube) differs. Verify packaging availability with your supplier for production requirements.

Q: Which substitute is best for automotive applications?

A: LMV358IYDT is qualified to AEC-Q100 standard and carries automotive grade designation. This part is specifically designed for automotive and harsh-environment applications requiring reliability certification.

Q: What is the significance of Moisture Sensitivity Level (MSL) differences?

A: MSL indicates the maximum time a component can be exposed to moisture before soldering. TLV2313IDR has MSL 2 (1 Year), while most substitutes have MSL 1 (Unlimited). Lower MSL values provide greater handling flexibility. AZV832MTR-G1 has MSL 3 (168 Hours), requiring more careful moisture control during storage and assembly.

Q: Can I use MCP6272-E/SN or MCP6272T-E/SN as direct replacements for higher-speed applications?

A: MCP6272-E/SN and MCP6272T-E/SN offer higher gain bandwidth product (2 MHz versus 1 MHz) and faster slew rate (0.9 V/µs versus 0.5 V/µs). These parts are suitable for applications requiring faster signal processing. However, verify that your circuit design accommodates the higher bandwidth to avoid stability issues or unwanted oscillation.

Q: What is the difference between LMV358IDT and LMV358IYDT?

A: Both parts are electrically identical with identical electrical specifications. LMV358IYDT carries AEC-Q100 automotive qualification and automotive grade designation, making it suitable for automotive applications. LMV358IDT is the standard industrial-grade version. Select LMV358IYDT for automotive or mission-critical applications.

Q: Are all substitutes RoHS3 compliant?

A: Yes, all listed substitutes are ROHS3 compliant and REACH unaffected, matching the regulatory compliance of TLV2313IDR. All parts carry ECCN EAR99 classification.

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