MAX6198 (5)
The MAX6198 is available from Analog Devices at Xecor. Designed for precision voltage referencing, the MAX6198 offers exceptional accuracy (±0.05%), low power consumption (35 µA supply current), and a stable output voltage of 4.096V. Available in an 8-SOIC package, it is ideal for applications requiring high precision and low noise, such as industrial automation, medical devices, and telecommunications. Whether used in data acquisition systems, instrumentation, or portable electronics, this series ensures reliable performance, scalability, and efficiency for demanding applications. Xecor is an authorized distributor for Analog Devices. Please view our extensive selection of the MAX6198 series below.
| Part Number | Description | Package | Inventory | Add To Bom |
|---|---|---|---|---|
| MAX6198AESA+ | Precision voltage references with micropower consumption | SOIC-8 | 6,740 | |
| MAX6198AESA+T | Voltage References Precision, Micropower, Low-Dropout Voltage References | SOIC-Narrow-8 | 2,928 | |
| MAX6198CESA+ | Precise and stable voltage regulation for reliable circuit operation | SOIC-8 | 2,215 | |
| MAX6198BESA+ | Stable output voltage for consistent performance | SOIC-8 | 3,483 | |
| MAX6198CESA+T | Enhance precision in voltage control applications | SOIC-Narrow-8 | 2,882 |
Key Featrues
High Precision Output Voltage (4.096V ±0.05%): The voltage reference provides an exceptionally accurate output voltage of 4.096V with a tolerance of just ±0.05%. This high precision ensures reliable performance in applications requiring stable and accurate voltage levels, such as analog-to-digital converters (ADCs) and digital-to-analog converters (DACs).
Low Temperature Coefficient (5ppm/°C): With a temperature coefficient of only 5ppm/°C, the device maintains consistent output voltage across a wide temperature range (-40°C to +85°C). This feature enhances stability and reliability in environments with fluctuating temperatures, making it suitable for industrial and automotive applications.
Low Power Consumption (35µA Supply Current): The voltage reference operates with a low supply current of 35µA, making it highly efficient for battery-powered and energy-sensitive applications. This low power consumption extends battery life and reduces overall system power requirements.
Low Noise Performance (100µVp-p from 0.1Hz to 10Hz): The device exhibits low noise characteristics, with a noise level of 100µVp-p in the 0.1Hz to 10Hz range. This feature is critical for high-precision measurement systems, such as medical devices and instrumentation, where minimizing noise is essential for accurate signal processing.
Wide Input Voltage Range (4.296V to 12.6V): The voltage reference supports a wide input voltage range, allowing it to be used in a variety of applications with different supply voltages. This flexibility makes it suitable for both low-voltage and higher-voltage systems, enhancing its versatility across multiple use cases.
Low Temperature Coefficient (5ppm/°C): With a temperature coefficient of only 5ppm/°C, the device maintains consistent output voltage across a wide temperature range (-40°C to +85°C). This feature enhances stability and reliability in environments with fluctuating temperatures, making it suitable for industrial and automotive applications.
Low Power Consumption (35µA Supply Current): The voltage reference operates with a low supply current of 35µA, making it highly efficient for battery-powered and energy-sensitive applications. This low power consumption extends battery life and reduces overall system power requirements.
Low Noise Performance (100µVp-p from 0.1Hz to 10Hz): The device exhibits low noise characteristics, with a noise level of 100µVp-p in the 0.1Hz to 10Hz range. This feature is critical for high-precision measurement systems, such as medical devices and instrumentation, where minimizing noise is essential for accurate signal processing.
Wide Input Voltage Range (4.296V to 12.6V): The voltage reference supports a wide input voltage range, allowing it to be used in a variety of applications with different supply voltages. This flexibility makes it suitable for both low-voltage and higher-voltage systems, enhancing its versatility across multiple use cases.
Applications
Precision Data Acquisition Systems: The MAX6198 is ideal for use in precision data acquisition systems where a stable and accurate voltage reference is required. Its low dropout voltage and high initial accuracy of ±0.05% ensure reliable performance in applications such as medical instrumentation, industrial automation, and environmental monitoring, where precise voltage references are critical for accurate signal processing.
Portable Battery-Powered Devices: The MAX6198's low supply current of 35 µA makes it suitable for portable battery-powered devices, such as handheld meters, wearable health monitors, and IoT sensors. Its low power consumption and high accuracy ensure long battery life and reliable operation in applications where power efficiency is paramount.
High-Accuracy Analog-to-Digital Converters (ADCs): The MAX6198 can be used as a reference voltage for high-accuracy ADCs in applications such as digital multimeters, precision scales, and laboratory equipment. Its low noise and temperature coefficient of 5 ppm/°C ensure stable and accurate voltage references, enabling high-resolution and low-error analog-to-digital conversions.
Industrial Control Systems: The MAX6198 is well-suited for industrial control systems that require precise voltage references for signal conditioning and control. Its wide input voltage range (4.294 V to 12.6 V) and robust performance over a wide temperature range (-40°C to +85°C) make it ideal for use in harsh industrial environments, such as motor control, process control, and power management systems.
Portable Battery-Powered Devices: The MAX6198's low supply current of 35 µA makes it suitable for portable battery-powered devices, such as handheld meters, wearable health monitors, and IoT sensors. Its low power consumption and high accuracy ensure long battery life and reliable operation in applications where power efficiency is paramount.
High-Accuracy Analog-to-Digital Converters (ADCs): The MAX6198 can be used as a reference voltage for high-accuracy ADCs in applications such as digital multimeters, precision scales, and laboratory equipment. Its low noise and temperature coefficient of 5 ppm/°C ensure stable and accurate voltage references, enabling high-resolution and low-error analog-to-digital conversions.
Industrial Control Systems: The MAX6198 is well-suited for industrial control systems that require precise voltage references for signal conditioning and control. Its wide input voltage range (4.294 V to 12.6 V) and robust performance over a wide temperature range (-40°C to +85°C) make it ideal for use in harsh industrial environments, such as motor control, process control, and power management systems.
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