Specifications
| Type | Description |
|---|---|
| Part Number | TLV3201 |
| Manufacturer | Texas Instruments |
| Product Type | Operational Amplifier |
| Category | Signal Chain |
| Package / Case | TLV3201: 5-pin SOT-23 2.90 mm x 1.60 mm, 5-pin SC70 2.00 mm x 1.25 mm; TLV3202: 8-pin VSSOP 3.00 mm x 3.00 mm, 8-pin SOIC 4.90 mm x 3.91 mm |
| Channel Count | 1 channel; TLV3201 |
| Channel Count | 2 channels; TLV3202 |
| Output Type | Push-pull; TLV3201 and TLV3202 |
| Low Propagation Delay | 40 ns; feature summary |
| Quiescent Current Per Channel | 40 uA; feature summary |
| Input Common-Mode Range Extension | 200 mV beyond either rail; feature summary |
| Input Offset Voltage | 1 mV; feature summary |
| Supply Voltage Range | 2.7 V to 5.5 V; feature summary |
| Operating Temperature Range | -40 C to 125 C; industrial temperature range |
| Absolute Maximum Supply Voltage | 7 V max; operating free-air temperature range |
| Absolute Maximum Signal Input Voltage | -0.5 V min, VCC + 0.5 V max; input pins diode-clamped to supply rails |
| Absolute Maximum Signal Input Current | -10 mA min, 10 mA max; input signals beyond supply rails must be current limited |
| Absolute Maximum Output Short-Circuit Current | 100 mA max; short-circuit to ground |
| Absolute Maximum Operating Temperature | -55 C to 125 C; operating temperature |
| Maximum Junction Temperature | 150 C max; TJ |
| Storage Temperature Range | -65 C to 150 C; Tstg |
| ESD Rating HBM | +/-2000 V; ANSI/ESDA/JEDEC JS-001 |
| ESD Rating CDM | +/-2000 V; TLV3201, JEDEC JESD22-C101 |
| ESD Rating CDM | +/-1000 V; TLV3202, JEDEC JESD22-C101 |
| Recommended Supply Voltage | 2.7 V min, 5.5 V max; VS = VS+ - VS-, over operating free-air temperature range |
| Recommended Specified Temperature | -40 C min, 125 C max; over operating free-air temperature range |
| Junction-to-Ambient Thermal Resistance | 237.8 C/W; TLV3201 DBV SOT-23, 5 pins |
| Junction-to-Ambient Thermal Resistance | 281.9 C/W; TLV3201 DCK SC70, 5 pins |
| Junction-to-Ambient Thermal Resistance | 143.6 C/W; TLV3202 D SOIC, 8 pins |
| Junction-to-Ambient Thermal Resistance | 201.9 C/W; TLV3202 DGK VSSOP, 8 pins |
| Input Offset Voltage | 1 mV typ, 3 mV max; VCC=5 V, TA=25 C, VCM=VCC/2, TLV3201 |
| Input Offset Voltage | 4 mV max; VCC=5 V, TA=-40 C to 125 C, TLV3201 |
| Input Offset Voltage | 1 mV typ, 5 mV max; VCC=5 V, TA=25 C, VCM=VCC/2, TLV3202 |
| Input Offset Voltage | 6 mV max; VCC=5 V, TA=-40 C to 125 C, TLV3202 |
| Input Offset Voltage Drift | 1 uV/C typ, 10 uV/C max; VCC=5 V, TA=-40 C to 125 C |
| Power-Supply Rejection Ratio | 65 dB min, 85 dB typ; VCC=5 V, VCM=VCC/2, VCC=2.5 V to 5.5 V |
| Input Hysteresis | 1.2 mV typ; VCC=5 V |
| Input Bias Current | 1 pA typ, 50 pA max; VCC=5 V, TA=25 C, VCM=VCC/2 |
| Input Bias Current | 5 nA max; VCC=5 V, TA=-40 C to 125 C |
| Input Offset Current | 1 pA typ, 50 pA max; VCC=5 V, TA=25 C, VCM=VCC/2 |
| Input Offset Current | 2.5 nA max; VCC=5 V, TA=-40 C to 125 C |
| Common-Mode Voltage Range | VEE - 0.2 V min, VCC + 0.2 V max; VCC=5 V, TA=-40 C to 125 C |
| Common-Mode Rejection Ratio | 60 dB min, 70 dB typ; VCC=5 V, -0.2 V < VCM < 5.2 V |
| Common-Mode Input Impedance | 10^13 ohm || 2 pF; VCC=5 V |
| Differential Input Impedance | 10^13 ohm || 4 pF; VCC=5 V |
| Output Low Voltage Swing From Lower Rail | 175 mV typ, 190 mV max; VCC=5 V, TA=25 C, ISINK=4 mA |
| Output Low Voltage Swing From Lower Rail | 225 mV max; VCC=5 V, TA=-40 C to 125 C, ISINK=4 mA |
| Output High Voltage Swing From Upper Rail | 120 mV typ, 140 mV max; VCC=5 V, TA=25 C, ISOURCE=4 mA |
| Output High Voltage Swing From Upper Rail | 170 mV max; VCC=5 V, TA=-40 C to 125 C, ISOURCE=4 mA |
| Short-Circuit Current Sinking | 40 mA typ, 48 mA max; VCC=5 V, per comparator |
| Short-Circuit Current Sourcing | 52 mA typ, 60 mA max; VCC=5 V, per comparator |
| Quiescent Current | 40 uA typ, 50 uA max; VCC=5 V, TA=25 C |
| Quiescent Current | 65 uA max; VCC=5 V, TA=-40 C to 125 C |
| Propagation Delay Low-to-High | 47 ns typ, 50 ns max; VCC=5 V, input overdrive=20 mV, CL=15 pF |
| Propagation Delay Low-to-High | 43 ns typ, 50 ns max; VCC=5 V, input overdrive=100 mV, CL=15 pF |
| Propagation Delay High-to-Low | 45 ns typ, 50 ns max; VCC=5 V, input overdrive=20 mV, CL=15 pF |
| Propagation Delay High-to-Low | 42 ns typ, 50 ns max; VCC=5 V, input overdrive=100 mV, CL=15 pF |
| Propagation Delay Maximum Over Temperature | 55 ns max; VCC=5 V, TA=-40 C to 125 C |
| Propagation Delay Skew | 2 ns typ; VCC=5 V, input overdrive=20 mV, CL=15 pF |
| Rise Time | 2.9 ns typ; VCC=5 V, 10% to 90% |
| Fall Time | 3.7 ns typ; VCC=5 V, 10% to 90% |
| Input Offset Voltage | 1 mV typ, 3 mV max; VCC=2.7 V, TA=25 C, VCM=VCC/2, TLV3201 |
| Input Offset Voltage | 1 mV typ, 5 mV max; VCC=2.7 V, TA=25 C, VCM=VCC/2, TLV3202 |
| Power-Supply Rejection Ratio | 65 dB min, 85 dB typ; VCC=2.7 V table, VCM=VCC/2, VCC=2.5 V to 5.5 V |
| Common-Mode Rejection Ratio | 56 dB min, 68 dB typ; VCC=2.7 V, -0.2 V < VCM < 2.9 V |
| Output Low Voltage Swing From Lower Rail | 230 mV typ, 260 mV max; VCC=2.7 V, TA=25 C, ISINK=4 mA |
| Output High Voltage Swing From Upper Rail | 210 mV typ, 250 mV max; VCC=2.7 V, TA=25 C, ISOURCE=4 mA |
| Short-Circuit Current Sinking | 13 mA typ, 19 mA max; VCC=2.7 V, per comparator |
| Short-Circuit Current Sourcing | 15 mA typ, 21 mA max; VCC=2.7 V, per comparator |
| Quiescent Current | 36 uA typ, 46 uA max; VCC=2.7 V, TA=25 C |
| Quiescent Current | 60 uA max; VCC=2.7 V, TA=-40 C to 125 C |
| Propagation Delay Low-to-High | 47 ns typ, 50 ns max; VCC=2.7 V, input overdrive=20 mV, CL=15 pF |
| Propagation Delay Low-to-High | 42 ns typ, 50 ns max; VCC=2.7 V, input overdrive=100 mV, CL=15 pF |
| Propagation Delay High-to-Low | 40 ns typ, 50 ns max; VCC=2.7 V, input overdrive=20 mV, CL=15 pF |
| Propagation Delay High-to-Low | 38 ns typ, 50 ns max; VCC=2.7 V, input overdrive=100 mV, CL=15 pF |
| Propagation Delay Maximum Over Temperature | 55 ns max; VCC=2.7 V, TA=-40 C to 125 C |
| Propagation Delay Skew | 2 ns typ; VCC=2.7 V, input overdrive=20 mV, CL=15 pF |
| Rise Time | 4.8 ns typ; VCC=2.7 V, 10% to 90% |
| Fall Time | 5.2 ns typ; VCC=2.7 V, 10% to 90% |
| Datasheet Status | request_only |
Product Overview
The TLV3201 is a Texas Instruments push-pull output comparator in the Signal_Chain category. It provides 1 channel, while the related TLV3202 provides 2 channels. Both devices use push-pull outputs, with the TLV3201 offered in 5-pin SOT-23 2.90 mm x 1.60 mm and 5-pin SC70 2.00 mm x 1.25 mm packages.
Electrical operation is defined over a recommended 2.7 V to 5.5 V supply range and -40 C to 125 C specified temperature range. Feature-level parameters include 40 ns low propagation delay, 40 uA quiescent current per channel, 1 mV input offset voltage, and an input common-mode range extending 200 mV beyond either rail.
At VCC=5 V, TLV3201 offset is 1 mV typical and 3 mV maximum at 25 C, with 4 mV maximum across -40 C to 125 C. Timing data includes 47 ns typical low-to-high delay at 20 mV overdrive and 45 ns typical high-to-low delay at 20 mV overdrive with CL=15 pF. Applications include voltage threshold detection, rail-adjacent signal comparison, low-power monitoring, and compact comparator stages.
Key Features
- 1-channel TLV3201 comparator with push-pull output
- 2.7 V to 5.5 V recommended supply range
- 40 ns low propagation delay in feature summary
- 40 uA quiescent current per channel
- Input common-mode range extends 200 mV beyond rails
- 1 mV input offset voltage in feature summary
- -40 C to 125 C specified temperature range
- 1.2 mV typical input hysteresis at VCC=5 V
- 10^13 ohm || 2 pF common-mode input impedance
- 2 ns typical propagation delay skew at VCC=5 V
Typical Applications
- Voltage threshold detection
- Rail-adjacent signal comparison
- Low-power monitoring circuits
- Single-channel comparator stages
- Push-pull logic output interfacing
- Compact SOT-23 comparator layouts
- SC70 signal-chain designs
Procurement Notes
When requesting a quote for TLV3201, 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 type of device is the TLV3201?
The TLV3201 is a Texas Instruments push-pull output comparator in the Signal_Chain category. It is the 1-channel member of the family; the related TLV3202 provides 2 channels.
What supply range is recommended for TLV3201 operation?
The recommended supply voltage range is 2.7 V minimum to 5.5 V maximum over the operating free-air temperature range. The feature summary also lists the supply voltage range as 2.7 V to 5.5 V.
What packages are listed for the TLV3201?
The TLV3201 package options are 5-pin SOT-23 measuring 2.90 mm x 1.60 mm and 5-pin SC70 measuring 2.00 mm x 1.25 mm. The related TLV3202 is listed in 8-pin VSSOP and SOIC packages.
What timing performance is specified at VCC equals 5 V?
At VCC=5 V, propagation delay is 47 ns typical and 50 ns maximum low-to-high at 20 mV overdrive, and 45 ns typical and 50 ns maximum high-to-low at 20 mV overdrive, with CL=15 pF.
What input common-mode range does the device support?
The feature summary states the input common-mode range extends 200 mV beyond either rail. At VCC=5 V across -40 C to 125 C, the common-mode voltage range is specified from VEE - 0.2 V to VCC + 0.2 V.
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.