Product Overview

The LT1034CZ-1.2#TRPBF is a precision, dual-tracking voltage reference from Analog Devices Inc., renowned for its high-quality semiconductor products. This voltage reference is designed to offer a stable and precise reference voltage of -1.2 volts, which is crucial for a variety of analog and mixed-signal applications. The device is available in a compact package and is characterized by its low dynamic impedance and excellent temperature stability.

Key Features

• Precision Reference Voltage: The LT1034CZ-1.2#TRPBF provides a fixed -1.2V output with a high level of accuracy, making it suitable for precision applications.
• Low Temperature Coefficient: This device has a low temperature coefficient, ensuring that the reference voltage remains stable across a wide range of operating temperatures.
• High Stability: With excellent long-term stability and low noise, this voltage reference maintains its precision over time, even in challenging conditions.
• Wide Operating Current Range: The LT1034CZ-1.2#TRPBF operates over a broad current range, providing flexibility in a variety of circuit configurations.
• Reverse Breakdown Voltage: It features a reverse breakdown voltage, which allows it to operate reliably and consistently.

Applications

The LT1034CZ-1.2#TRPBF is ideal for use in a wide array of applications where precision voltage reference is critical. These include:

• Portable Battery-Powered Equipment
• Data Acquisition Systems
• Analog-to-Digital Converters (ADCs)
• Digital-to-Analog Converters (DACs)
• Instrumentation
• Power Supplies

Product Specifications

The device comes in a durable package designed to meet the stringent requirements of industrial and commercial applications. Here are some of the technical specifications:

• Output Voltage: -1.2V
• Package Type: TO-92
• Operating Temperature Range: -40°C to +85°C
• Number of Pins: 3

The LT1034CZ-1.2#TRPBF from Analog Devices Inc. represents a reliable and precise voltage reference solution for designers who require consistent performance and stability in their electronic circuits.