SN74LVC2G07 Dual Open-Drain Buffer Driver

Texas Instruments Signal_Chain — specifications, applications, sourcing support and RFQ.

SN74LVC2G07 Dual Open-Drain Buffer Driver

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Part Number
SN74LVC2G07
Manufacturer
Texas Instruments
Package
SOT-23(6) 2.90 mm x 1.60 mm; SC70(6) 2.00 mm x 1.25 mm; DRY SON(6) 1.45 mm x 1.00 mm; DSF SON(6) 1.00 mm x 1.00 mm; DSBGA(6) 1.41 mm x 0.91 mm
Category
Signal Chain
Product Type
Operational Amplifier

Quick Sourcing Note

SN74LVC2G07 from Texas Instruments is a Signal_Chain dual open-drain buffer driver. It provides two buffer and driver channels with open-drain outputs and operates from a 1.65 to 5.5 V recommended supply. Supported package options include SOT-23(6), SC70(6), DRY SON(6), DSF SON(6), and DSBGA(6). Key electrical limits include 0 to 5.5 V input and output ranges, up to 32 mA sink capability, ±5 µA maximum input current, and -40 to 125 °C operating free-air temperature. The function table indicates Y follows A, with an external pullup required for the high state.

Specifications

TypeDescription
Part NumberSN74LVC2G07
ManufacturerTexas Instruments
Product TypeOperational Amplifier
CategorySignal Chain
Package CaseSOT-23(6) 2.90 mm x 1.60 mm; SC70(6) 2.00 mm x 1.25 mm; DRY SON(6) 1.45 mm x 1.00 mm; DSF SON(6) 1.00 mm x 1.00 mm; DSBGA(6) 1.41 mm x 0.91 mm
Component TypeOther
Logic FunctionDual buffer and driver with open-drain outputs; condition: Device description; source page: 1
Supply Voltage Range1.65 to 5.5 V; condition: Recommended operating supply voltage; source page: 4
Data Retention Supply Voltage1.5 V; condition: Data retention only; source page: 4
Maximum Sink Current32 mA; condition: Device description; source page: 1
Output Drive Current-24 mA; condition: VCC = 3.3 V; source page: 1
Input Voltage Range0 to 5.5 V; condition: Recommended operating conditions; source page: 4
Output Voltage Range0 to 5.5 V; condition: Recommended operating conditions; source page: 4
Operating Free-Air Temperature-40 to 125 °C; condition: Recommended operating conditions; source page: 5
High-Level Input Voltage0.65 x VCC min; condition: VCC = 1.65 V to 1.95 V; source page: 4
High-Level Input Voltage1.7 V min; condition: VCC = 2.3 V to 2.7 V; source page: 4
High-Level Input Voltage2 V min; condition: VCC = 3 V to 3.6 V; source page: 4
High-Level Input Voltage0.7 x VCC min; condition: VCC = 4.5 V to 5.5 V; source page: 4
Low-Level Input Voltage0.35 x VCC max; condition: VCC = 1.65 V to 1.95 V; source page: 4
Low-Level Input Voltage0.7 V max; condition: VCC = 2.3 V to 2.7 V; source page: 4
Low-Level Input Voltage0.8 V max; condition: VCC = 3 V to 3.6 V; source page: 4
Low-Level Input Voltage0.3 x VCC max; condition: VCC = 4.5 V to 5.5 V; source page: 4
Low-Level Output Current4 mA max; condition: VCC = 1.65 V; source page: 4
Low-Level Output Current8 mA max; condition: VCC = 2.3 V; source page: 4
Low-Level Output Current16 mA max; condition: VCC = 3 V; source page: 4
Low-Level Output Current24 mA max; condition: VCC = 3 V; source page: 4
Low-Level Output Current32 mA max; condition: VCC = 4.5 V; source page: 4
Input Transition Rise or Fall Rate20 ns/V max; condition: VCC = 1.8 V ±0.15 V or 2.5 V ±0.2 V; source page: 4
Input Transition Rise or Fall Rate10 ns/V max; condition: VCC = 3.3 V ±0.3 V; source page: 4
Input Transition Rise or Fall Rate5 ns/V max; condition: VCC = 5 V ±0.5 V; source page: 4
Absolute Maximum Supply Voltage-0.5 to 6.5 V; condition: Over operating free-air temperature range; source page: 4
Absolute Maximum Input Voltage-0.5 to 6.5 V; condition: Over operating free-air temperature range; source page: 4
Absolute Maximum Output Voltage-0.5 to 6.5 V; condition: High-impedance or power-off state; source page: 4
Absolute Maximum Output Voltage-0.5 to 6.5 V; condition: High or low state; source page: 4
Input Clamp Current-50 mA max; condition: VI < 0; source page: 4
Output Clamp Current-50 mA max; condition: VO < 0; source page: 4
Continuous Output Current±50 mA max; condition: Absolute maximum rating; source page: 4
Continuous Current Through VCC or GND±100 mA max; condition: Absolute maximum rating; source page: 4
Storage Temperature-65 to 150 °C; condition: Absolute maximum rating; source page: 4
ESD Rating HBM+2000 V; condition: Human body model, ANSI/ESDA/JEDEC JS-001; source page: 4
ESD Rating CDM+1000 V; condition: Charged-device model, JEDEC JESD22-C101; source page: 4
Low-Level Output Voltage0.1 V typ, 0.1 V max; condition: IOL = 100 µA, VCC = 1.65 V to 5.5 V, TA = -40 °C to 85 °C and -40 °C to 125 °C; source page: 5
Low-Level Output Voltage0.45 V max; condition: IOL = 4 mA, VCC = 1.65 V, TA = -40 °C to 85 °C and -40 °C to 125 °C; source page: 5
Low-Level Output Voltage0.3 V max; condition: IOL = 8 mA, VCC = 2.3 V, TA = -40 °C to 85 °C and -40 °C to 125 °C; source page: 5
Low-Level Output Voltage0.4 V max; condition: IOL = 16 mA, VCC = 3 V, TA = -40 °C to 85 °C and -40 °C to 125 °C; source page: 5
Low-Level Output Voltage0.55 V max; condition: IOL = 24 mA, VCC = 3 V, TA = -40 °C to 85 °C and -40 °C to 125 °C; source page: 5
Low-Level Output Voltage0.55 V max; condition: IOL = 32 mA, VCC = 4.5 V, TA = -40 °C to 85 °C and -40 °C to 125 °C; source page: 5
Input Current±5 µA max; condition: A inputs, VI = 5.5 V or GND, VCC = 0 to 5.5 V; source page: 5
Power-Off Leakage Current±10 µA max; condition: VI or VO = 5.5 V, VCC = 0 V; source page: 5
Supply Current10 µA max; condition: VI = 5.5 V or GND, IO = 0, VCC = 1.65 V to 5.5 V; source page: 5
Delta Supply Current500 µA max; condition: One input at VCC - 0.6 V, other inputs at VCC or GND, VCC = 3 V to 5.5 V; source page: 5
Input Capacitance3.5 pF typ; condition: VI = VCC or GND, VCC = 3.3 V, TA = 25 °C; source page: 5
Propagation Delay1.5 ns min, 8.6 ns max; condition: A to Y, VCC = 1.8 V ±0.15 V, TA = -40 °C to 85 °C; source page: 5
Propagation Delay1 ns min, 4.4 ns max; condition: A to Y, VCC = 2.5 V ±0.2 V, TA = -40 °C to 85 °C; source page: 5
Propagation Delay1 ns min, 3.7 ns max; condition: A to Y, VCC = 3.3 V ±0.3 V, TA = -40 °C to 85 °C; source page: 5
Propagation Delay1 ns min, 2.9 ns max; condition: A to Y, VCC = 5 V ±0.5 V, TA = -40 °C to 85 °C; source page: 5
Propagation Delay1.5 ns min, 8.6 ns max; condition: A to Y, VCC = 1.8 V ±0.15 V, TA = -40 °C to 125 °C; source page: 5
Propagation Delay1 ns min, 4.9 ns max; condition: A to Y, VCC = 2.5 V ±0.2 V, TA = -40 °C to 125 °C; source page: 5
Propagation Delay1 ns min, 4.2 ns max; condition: A to Y, VCC = 3.3 V ±0.3 V, TA = -40 °C to 125 °C; source page: 5
Propagation Delay1 ns min, 3.4 ns max; condition: A to Y, VCC = 5 V ±0.5 V, TA = -40 °C to 125 °C; source page: 5
Power Dissipation Capacitance3 pF typ; condition: f = 10 MHz, VCC = 1.8 V, TA = 25 °C; source page: 5
Power Dissipation Capacitance3 pF typ; condition: f = 10 MHz, VCC = 2.5 V, TA = 25 °C; source page: 5
Power Dissipation Capacitance4 pF typ; condition: f = 10 MHz, VCC = 3.3 V, TA = 25 °C; source page: 5
Power Dissipation Capacitance4 pF typ; condition: f = 10 MHz, VCC = 5 V, TA = 25 °C; source page: 5
Junction-to-Ambient Thermal Resistance165 °C/W; condition: SOT-23, 6 pins; source page: 5
Junction-to-Ambient Thermal Resistance259 °C/W; condition: SC70, 6 pins; source page: 5
Junction-to-Ambient Thermal Resistance234 °C/W; condition: DRY SON, 6 pins; source page: 5
Junction-to-Ambient Thermal Resistance123 °C/W; condition: DSBGA, 6 pins; source page: 5
Junction-to-Ambient Thermal Resistance300 °C/W; condition: DSF SON, 6 pins; source page: 5
Function TableY = L; condition: Input A = L; source page: 8
Function TableY = H; condition: Input A = H; open-drain output requires external pullup for high state; source page: 8
Pin 1 Function1A input 1; condition: Pin configuration and functions; source page: 3
Pin 2 FunctionGND ground; condition: Pin configuration and functions; source page: 3
Pin 3 Function2A input 2; condition: Pin configuration and functions; source page: 3
Pin 4 Function2Y open-drain output 2; condition: Pin configuration and functions; source page: 3
Pin 5 FunctionVCC power pin; condition: Pin configuration and functions; source page: 3
Pin 6 Function1Y open-drain output 1; condition: Pin configuration and functions; source page: 3
Datasheet Statusrequest_only

Product Overview

The SN74LVC2G07 is a Texas Instruments dual buffer and driver with open-drain outputs for Signal_Chain use. Each channel has an A input and a Y open-drain output, with the function table showing Y = L when A = L and Y = H when A = H. Because the outputs are open drain, the high state requires an external pullup.

The device operates across a 1.65 to 5.5 V recommended supply range, with 1.5 V specified for data retention only. Recommended input and output voltage ranges are 0 to 5.5 V, and operation is specified from -40 to 125 °C. The device supports sink-current use up to 32 mA and includes output-current entries from 4 mA at 1.65 V to 32 mA at 4.5 V.

Package options cover SOT-23(6), SC70(6), DRY SON(6), DSF SON(6), and DSBGA(6) footprints. The 6-pin pinout assigns 1A, GND, 2A, 2Y, VCC, and 1Y, supporting compact dual-channel assembly where open-drain buffering, external pullup selection, and multi-voltage logic operation are required.

Key Features

  • Dual buffer and driver with open-drain outputs
  • Recommended supply voltage range from 1.65 to 5.5 V
  • Input and output voltage ranges from 0 to 5.5 V
  • Maximum sink current specified as 32 mA
  • Operates across -40 to 125 °C free-air temperature
  • Open-drain high state requires an external pullup
  • Propagation delay down to 1 ns minimum at multiple supplies
  • Input capacitance specified as 3.5 pF typical
  • Power-off leakage current specified as ±10 µA maximum
  • Available in SOT-23, SC70, SON, and DSBGA packages

Typical Applications

  • Open-drain logic buffering
  • Dual-channel signal driving
  • Pullup-defined logic outputs
  • Multi-voltage logic interfaces
  • Compact 6-pin board layouts
  • Low-voltage digital signal paths
  • Power-off tolerant signal connections

Procurement Notes

When requesting a quote for SN74LVC2G07, buyers should confirm the manufacturer, package or case, required quantity, target date code, compliance documents, packing method, destination country and expected delivery schedule.

If alternatives are acceptable, buyers should share the approved vendor list, required electrical or optical limits, package constraints and qualification requirements. Any alternative part should be reviewed by the buyer's engineering team before production use.

For analog and signal-chain sourcing, supply voltage, bandwidth, accuracy, noise level, package, temperature grade, input/output configuration and qualification requirements should be verified before approval.

FAQ

What logic function does the SN74LVC2G07 provide?

The SN74LVC2G07 provides two buffer and driver channels with open-drain outputs. The function table shows Y = L when input A = L and Y = H when input A = H, with an external pullup required for the output high state.

What supply voltage range is recommended for SN74LVC2G07?

The recommended operating supply voltage range is 1.65 to 5.5 V. The extracted facts also specify 1.5 V for data retention only, separate from the recommended operating supply range.

Which package options are listed for this device?

The package options listed are SOT-23(6) 2.90 mm x 1.60 mm, SC70(6) 2.00 mm x 1.25 mm, DRY SON(6) 1.45 mm x 1.00 mm, DSF SON(6) 1.00 mm x 1.00 mm, and DSBGA(6) 1.41 mm x 0.91 mm.

What are the SN74LVC2G07 input and output voltage ranges?

The recommended operating input voltage range is 0 to 5.5 V, and the recommended output voltage range is also 0 to 5.5 V. Absolute maximum input and output voltage entries are listed as -0.5 to 6.5 V.

What is the operating temperature range of SN74LVC2G07?

The operating free-air temperature range is -40 to 125 °C under recommended operating conditions. The storage temperature absolute maximum rating is listed separately as -65 to 150 °C.

Technical Review & Sourcing Note

Prepared by LDeepAI Component Sourcing Team. Reviewed for RFQ, documentation and alternative sourcing use. Last updated: June 30, 2026.

This page is based on manufacturer datasheet information and LDeepAI sourcing review. Specifications should be verified against the official manufacturer datasheet before final procurement or design approval. Final electrical, optical and reliability approval should be confirmed by the buyer's engineering team.

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