Manufacturer Part Number
TLV3402CDGKR
Manufacturer
Texas Instruments
Introduction
The TLV3402CDGKR is a general-purpose dual element linear comparator designed for optimal performance in voltage level detection.
Product Features and Performance
Features dual elements that facilitate multiple comparisons.
Provides both CMOS and Open-Drain outputs.
Supports a wide supply voltage range from 2.5V to 16V or ±1.25V to ±8V.
Has a maximum input offset voltage of 3.6mV at 15V.
Exhibits low input bias current of 250pA at 15V.
Offers a typical output current of 10mA.
Features ultra-low quiescent current of 950nA max.
High common-mode rejection ratio (CMRR) and power supply rejection ratio (PSRR) of 88dB and 105dB respectively.
Maximum propagation delay of 300µs.
Product Advantages
Extremely low power consumption enhancing battery life in portable applications.
High precision due to low input offset voltage and low input bias current.
Versatile output types cater to varied circuit design requirements.
Key Technical Parameters
Output Type: CMOS, Open-Drain
Voltage Supply, Single/Dual (±): 2.5V ~ 16V, ±1.25V ~ 8V
Voltage Input Offset (Max): 3.6mV @ 15V
Current Input Bias (Max): 250pA @ 15V
Current Output (Typ): 10mA
Current Quiescent (Max): 950nA
Propagation Delay (Max): 300µs
Quality and Safety Features
High PSRR and CMRR rates ensure stability and reliability under variable power supply conditions and common-mode noise.
Compatibility
Compatible with 8-VSSOP device packages and surface mounting technologies.
Application Areas
Industrial
Electronics
Measurement systems
Signal conditioning modules
Product Lifecycle
Classified as "Last Time Buy"; check for product replacements or upgrades as it may be approaching discontinuation.
Several Key Reasons to Choose This Product
Robust against power supply fluctuations and noise due to high CMRR and PSRR.
Low power requirement makes it ideal for battery-operated devices.
Versatile for both single-ended and differential input voltages.
Accurate sensing and comparison due to low voltage offsets and minimal propagation delay.
Dual element configuration allows for complex comparison tasks within a single IC.