Manufacturer Part Number
TLV1704AIPW
Manufacturer
Texas Instruments
Introduction
TLV1704AIPW is a general-purpose linear comparator designed for multiple applications requiring precise voltage comparison.
Product Features and Performance
Features four independent comparator elements
Open-collector output type for flexible design options
Wide supply voltage range, supporting 2.2V ~ 36V (single) and ±1.1V ~ 18V (dual)
Maximum input offset voltage of 3.5mV ensuring accuracy
Ultra-low input bias current of 0.015µA to reduce error
Output current typically 20mA to drive connected components
Maximum quiescent current of 75µA to minimize power consumption
Propagation delay maximum of 560ns for quick response
Operational over a wide temperature range: -40°C ~ 125°C
Product Advantages
Multiple elements increase design flexibility.
Very low power consumption, making it ideal for power-sensitive applications.
Wide temperature range suitable for industrial applications.
Key Technical Parameters
Number of Elements: 4
Output Type: Open-Collector
Voltage Supply, Single/Dual (±): 2.2V ~ 36V, ±1.1V ~ 18V
Voltage Input Offset (Max): 3.5mV
Current Input Bias (Max): 0.015µA
Current Output (Typ): 20mA
Current Quiescent (Max): 75µA
Propagation Delay (Max): 560ns
Operating Temperature: -40°C ~ 125°C
Quality and Safety Features
Rigorous testing to ensure performance stability and reliability across varying conditions.
Compatibility
Compatible with multiple logic families due to open-collector output type.
Application Areas
Industrial electronics
Automotive systems
Data processing
Telecommunications
Consumer electronics
Product Lifecycle
Currently in active production with no current plans for discontinuation.
Long-term availability supported by Texas Instruments.
Several Key Reasons to Choose This Product
Highly reliable across a broad range of operational conditions.
Low power usage enhances battery life in portable applications.
Supports a wide range of supply voltages for versatile design integration.
Fast response time suited for critical applications requiring quick switching.
Ideal for systems with multiple comparison requirements due to quadruple independent elements.