Manufacturer Part Number
ZXCT1080E5TA
Manufacturer
Diodes
Introduction
The ZXCT1080E5TA is a high-side current monitor IC designed for power management applications.
Product Features and Performance
High-Side current sensing
Wide input voltage range: 3V to 60V
Accuracy: ±3%
Output current: 1mA
Operating temperature range: -40°C to 125°C
Automotive-grade reliability
AEC-Q100 qualified
SOT-23-5 package for surface mounting
Low power consumption
Suitable for high-voltage systems due to its wide input voltage range
Provides a simple current monitoring solution with minimal external components required
Product Advantages
Enables accurate current monitoring from the high side of the circuit
Flexible usage across a broad range of input voltages
Suitable for harsh automotive environments
Easy to integrate into existing designs thanks to its small footprint
Key Technical Parameters
Voltage Input: 3V to 60V
Accuracy: ±3%
Current Output: 1mA
Operating Temperature: -40°C to 125°C
Package/Case: SC-74A, SOT-753
Quality and Safety Features
AEC-Q100 qualification ensures reliability for automotive applications
Robust operating temperature range catering to challenging environmental conditions
Compatibility
Compatible with various high-side power management applications
The small package is ideal for compact PCB layouts
Surface mount form factor compatible with standard SMT processes
Application Areas
Automotive systems
Power management modules
Battery management
Industrial control systems
Portable devices
Product Lifecycle
Currently active with no reported discontinuation
Consult Diodes for information about future replacements or upgrades
Several Key Reasons to Choose This Product
High reliability for automotive and industrial applications
Capable of handling a wide range of input voltages for versatile usage
Highly accurate current sensing contributes to optimal power management
Small SOT-23-5 package aids in design miniaturization
Qualified to stringent quality standards, providing assurance in product robustness
Ideal for integration in modern, high-performance electronic systems requiring precise current monitoring