Maxim Integrated LM4041CIX3-1.2-T Precision Voltage Reference
The LM4041CIX3-1.2-T is a high-quality, precision voltage reference from Maxim Integrated, a renowned manufacturer of analog and mixed-signal products. This device offers a fixed reverse breakdown voltage of 1.2V with an impressive accuracy level, making it an ideal choice for various applications that require a stable reference voltage.
Designed with advanced technology, the LM4041CIX3-1.2-T ensures excellent temperature stability and low dynamic impedance, which are critical for maintaining consistent performance across a wide range of operating conditions. It comes in a compact SOT-23 package, which is perfect for space-constrained applications and can be easily integrated into a variety of electronic circuits.
The device features a low minimum operating current of 60µA and a maximum of 12mA, providing designers with a flexible range of current options to suit their specific needs. This makes the LM4041CIX3-1.2-T a versatile component for power supply circuits, portable devices, and precision data conversion systems, among others.
Key specifications of the LM4041CIX3-1.2-T include:
- Output Voltage: 1.2V
- Initial Accuracy: ±1%
- Temperature Coefficient: typically 100ppm/°C
- Operating Current Range: 60µA to 12mA
- Package Type: SOT-23
- Operating Temperature Range: -40°C to +85°C
With its robust design, the LM4041CIX3-1.2-T is also characterized by its long-term stability and reliability, making it a trusted component in critical applications such as medical equipment, precision instrumentation, and industrial controls. Its industry-standard footprint ensures compatibility with existing layouts, simplifying the design process for engineers.
Maxim Integrated's commitment to quality is evident in the LM4041CIX3-1.2-T voltage reference, which is designed to meet the stringent requirements of modern electronic systems. Whether it's for calibration, signal conditioning, or power management, this precision voltage reference is engineered to deliver consistent performance and enhance the accuracy of your electronic designs.