TLV3501 High-Speed Rail-to-Rail Comparator

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

TLV3501 High-Speed Rail-to-Rail Comparator

RFQ Available Sourcing Support Alternative Matching RoHS
Part Number
TLV3501
Manufacturer
Texas Instruments
Package
TLV3501: SOT-23-6 1.60 mm x 2.90 mm, SOIC-8 3.91 mm x 4.90 mm
Category
Signal Chain
Product Type
Operational Amplifier

Quick Sourcing Note

TLV3501 from Texas Instruments is a Signal_Chain high-speed rail-to-rail comparator supplied in SOT-23-6 1.60 mm x 2.90 mm and SOIC-8 3.91 mm x 4.90 mm packages. It supports a specified 2.7 V to 5.5 V supply range, with recommended operation from 2.2 V to 5.5 V, and operates from -40°C to +125°C. Key parameters include 4.5 ns typical propagation delay at 20 mV overdrive, 80 MHz typical maximum toggle frequency at 5 V, 1.5 ns typical rise and fall times, push-pull CMOS output, rail-to-rail I/O, 6 mV typical hysteresis, and 2 µA typical shutdown current.

Specifications

TypeDescription
Part NumberTLV3501
ManufacturerTexas Instruments
Product TypeOperational Amplifier
CategorySignal Chain
Package / CaseTLV3501: SOT-23-6 1.60 mm x 2.90 mm, SOIC-8 3.91 mm x 4.90 mm
Propagation Delay4.5 ns typ, 6.4 ns max; TA=25°C, VS=2.7 V to 5.5 V, ΔVIN=100 mV, overdrive=20 mV
Propagation Delay7 ns max; TA=-40°C to +125°C, VS=2.7 V to 5.5 V, ΔVIN=100 mV, overdrive=20 mV
Propagation Delay7.5 ns typ, 10 ns max; TA=25°C, VS=2.7 V to 5.5 V, ΔVIN=100 mV, overdrive=5 mV
Propagation Delay12 ns max; TA=-40°C to +125°C, VS=2.7 V to 5.5 V, ΔVIN=100 mV, overdrive=5 mV
Propagation Delay Skew0.5 ns typ; ΔVIN=100 mV, overdrive=20 mV
Maximum Toggle Frequency80 MHz typ; overdrive=50 mV, VS=5 V
Rise Time1.5 ns typ; measured between 10% of VS and 90% of VS
Fall Time1.5 ns typ; measured between 10% of VS and 90% of VS
Specified Supply Voltage2.7 V min, 5.5 V max; electrical characteristics specified range
Recommended Supply Voltage2.2 V min, 2.7 V nom, 5.5 V max; recommended operating conditions
Quiescent Current3.2 mA typ, 5 mA max; VS=5 V, VO=High
Input Offset Voltage±1 mV typ, ±6.5 mV max; VCM=0 V, IO=0 mA
Input Offset Voltage vs Temperature±5 µV/°C typ; TA=-40°C to +125°C
Power Supply Rejection Ratio100 µV/V typ, 400 µV/V max; VS=2.7 V to 5.5 V
Input Hysteresis6 mV typ; TA=25°C, VS=2.7 V to 5.5 V
Input Bias Current±2 pA typ, ±10 pA max; VCM=VCC/2, not production tested
Input Offset Current±2 pA typ, ±10 pA max; VCM=VCC/2, not production tested
Common-Mode Voltage Range(V-) - 0.2 V min, (V+) - 0.2 V max; TA=25°C, VS=2.7 V to 5.5 V
Common-Mode Rejection Ratio57 dB min, 70 dB typ; VCM=-0.2 V to (V+)+0.2 V
Common-Mode Rejection Ratio55 dB min; VCM=-0.2 V to (V+)+0.2 V, TA=-40°C to +125°C
Common-Mode Input Impedance10^13 Ω || 2 pF; TA=25°C, VS=2.7 V to 5.5 V
Differential Input Impedance10^13 Ω || 4 pF; TA=25°C, VS=2.7 V to 5.5 V
Output Voltage Swing from Rail30 mV typ, 50 mV max; IOUT=±1 mA
Shutdown Turnoff Time30 ns typ; TLV3501 shutdown function
Shutdown Turnon Time100 ns typ; TLV3501 shutdown function
Shutdown Low Threshold(V+) - 1.7 V; comparator enabled
Shutdown High Threshold(V+) - 0.9 V; comparator disabled
Shutdown Pin Input Bias Current2 pA typ; TLV3501 shutdown pin
Quiescent Current in Shutdown2 µA typ; shutdown mode
Operating Temperature-40°C min, 125°C max; recommended operating conditions and specified temperature range
Absolute Maximum Supply Voltage5.5 V max; absolute maximum ratings
Absolute Maximum Signal Input Voltage(V-) - 0.3 V min, (V+) + 0.3 V max; absolute maximum ratings
Absolute Maximum Signal Input Current10 mA max; input terminals diode-clamped to supply rails
Output Short-Circuit Current74 mA max; short circuit to ground, one comparator per package
Absolute Maximum Junction Temperature150°C max; absolute maximum ratings
Storage Temperature-65°C min, 150°C max; absolute maximum ratings
ESD Rating HBM±3000 V; human-body model per ANSI/ESDA/JEDEC JS-001
ESD Rating CDM±500 V; charged-device model per JEDEC JESD22-C101
Output Stage TypePush-pull CMOS; feature description
Input/Output RangeRail-to-rail I/O; feature description
TLV3501 Junction-to-Ambient Thermal Resistance192.2°C/W SOT-23-6, 129.5°C/W SOIC-8; thermal information
TLV3501 Junction-to-Case Top Thermal Resistance134.8°C/W SOT-23-6, 75.9°C/W SOIC-8; thermal information
TLV3501 Junction-to-Board Thermal Resistance37.1°C/W SOT-23-6, 69.8°C/W SOIC-8; thermal information
Datasheet Statusrequest_only

Product Overview

TLV3501 is a Texas Instruments high-speed rail-to-rail comparator for Signal_Chain designs that need nanosecond-class decision timing. The device uses a push-pull CMOS output stage and rail-to-rail I/O, with propagation delay specified across 2.7 V to 5.5 V supplies. At 25°C with 100 mV input step and 20 mV overdrive, propagation delay is 4.5 ns typical and 6.4 ns maximum; across -40°C to +125°C, the maximum is 7 ns under the same drive condition.

The comparator is specified for 2.7 V to 5.5 V electrical characteristics and has recommended operation from 2.2 V to 5.5 V. Input-related parameters include ±1 mV typical offset voltage, 6 mV typical hysteresis, 57 dB minimum CMRR at 25°C, and common-mode input impedance of 10^13 Ω || 2 pF.

Package options for TLV3501 include SOT-23-6 at 1.60 mm x 2.90 mm and SOIC-8 at 3.91 mm x 4.90 mm. Thermal data includes 192.2°C/W junction-to-ambient resistance for SOT-23-6 and 129.5°C/W for SOIC-8, supporting package-level comparison during board and assembly planning.

Key Features

  • 4.5 ns typical propagation delay at 20 mV overdrive
  • 7 ns maximum delay across -40°C to +125°C
  • 80 MHz typical maximum toggle frequency at 5 V
  • Rail-to-rail I/O with push-pull CMOS output stage
  • 2.7 V to 5.5 V specified supply range
  • 6 mV typical input hysteresis at 25°C
  • 1.5 ns typical rise and fall times
  • ±1 mV typical input offset voltage
  • 2 µA typical quiescent current in shutdown
  • SOT-23-6 and SOIC-8 package options

Typical Applications

  • High-speed threshold detection
  • Rail-to-rail signal comparison
  • Low-voltage comparator circuits
  • Fast edge detection
  • Shutdown-controlled signal monitoring
  • 5 V toggle-frequency applications
  • Compact SOT-23-6 designs

Procurement Notes

When requesting a quote for TLV3501, 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 supply range is specified for TLV3501 electrical characteristics?

The TLV3501 electrical characteristics are specified from 2.7 V to 5.5 V. Recommended operating conditions list 2.2 V minimum, 2.7 V nominal, and 5.5 V maximum supply voltage.

What propagation delay does TLV3501 provide at 20 mV overdrive?

At TA=25°C, VS=2.7 V to 5.5 V, ΔVIN=100 mV, and 20 mV overdrive, TLV3501 has 4.5 ns typical and 6.4 ns maximum propagation delay. Across -40°C to +125°C, the maximum is 7 ns.

Which packages are listed for the TLV3501?

The extracted package data lists TLV3501 in SOT-23-6 measuring 1.60 mm x 2.90 mm and SOIC-8 measuring 3.91 mm x 4.90 mm.

Does TLV3501 include a shutdown function?

Yes. The TLV3501 shutdown function has 30 ns typical turnoff time, 100 ns typical turnon time, 2 pA typical shutdown pin input bias current, and 2 µA typical quiescent current in shutdown mode.

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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