Analog Devices Inc. LTC2372IUH-18#PBF: High-Precision ADC

The LTC2372IUH-18#PBF is a cutting-edge 18-bit Analog-to-Digital Converter (ADC) from Analog Devices Inc., designed to deliver high-fidelity data conversion with an impressive sampling rate. This product is housed in a compact QFN-32 package, making it an ideal choice for space-constrained applications that require precise and reliable data acquisition.

With its 18-bit resolution, the LTC2372IUH-18#PBF ensures outstanding accuracy and noise performance, which is essential for high-end instrumentation, medical devices, and industrial control systems. Its precision is further enhanced by a differential input architecture that minimizes common-mode noise and provides a robust signal path.

The ADC operates within a supply voltage range of 2.5V to 5.5V, providing designers with flexibility in system power design. Additionally, it boasts an impressive low power consumption, making it suitable for battery-powered devices and energy-efficient systems.

Key features of the LTC2372IUH-18#PBF include:

• Analog input range: ±VREF with VREF up to 5V
• Throughput: 1Msps (Mega samples per second)
• No missing codes at 18-bit resolution
• Low power dissipation: 21mW at 1Msps
• Power-down mode: 2.5μW
• CMOS or LVDS digital interface options
• Internal conversion clock
• Integral nonlinearity (INL): ±2ppm of full scale
• Guaranteed 18-bit no missing codes
• Operational temperature range: -40°C to +85°C

The device also features an internal oscillator that simplifies the design by eliminating the need for an external clock source. The LTC2372IUH-18#PBF provides both CMOS and LVDS digital interfaces, offering versatility for various digital systems and ensuring easy integration into existing designs.

For applications requiring high-resolution data acquisition, the LTC2372IUH-18#PBF from Analog Devices Inc. stands out as a top-tier solution. Its combination of precision, speed, and low power consumption makes it an excellent choice for engineers looking to enhance the performance and efficiency of their systems.