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MAX13087EESA+T

MAX13087EESA+T

Product Overview

  • Category: Integrated Circuit (IC)
  • Use: Signal Conditioning
  • Characteristics: Low-power, high-speed, precision analog front-end for sensor applications
  • Package: 8-pin SOIC (Small Outline Integrated Circuit)
  • Essence: Provides signal conditioning and amplification for various sensors
  • Packaging/Quantity: Tape and Reel, 2500 units per reel

Specifications

  • Supply Voltage Range: 2.7V to 5.5V
  • Operating Temperature Range: -40°C to +125°C
  • Input Offset Voltage: ±1mV (maximum)
  • Gain Bandwidth Product: 10MHz (typical)
  • Input Bias Current: ±1nA (maximum)
  • Output Current: ±20mA (maximum)
  • Quiescent Current: 500µA (typical)

Pin Configuration

The MAX13087EESA+T has the following pin configuration:

```


| | --| VCC GND |-- Pin 1: Power Supply --| IN+ IN- |-- Pin 2: Differential Input --| OUT |-- Pin 3: Amplified Output --| NC |-- Pin 4: No Connection --| NC |-- Pin 5: No Connection --| NC |-- Pin 6: No Connection --| NC |-- Pin 7: No Connection --| SHDN |-- Pin 8: Shutdown Control |___________| ```

Functional Features

  • Low-power consumption for battery-powered applications
  • High-speed operation for real-time sensing
  • Precision amplification for accurate signal conditioning
  • Shutdown control for power-saving mode
  • Wide supply voltage range for flexibility in different systems

Advantages and Disadvantages

Advantages: - Low-power consumption extends battery life - High-speed operation enables real-time sensing applications - Precision amplification ensures accurate signal conditioning - Shutdown control allows for power-saving mode when not in use - Wide supply voltage range provides flexibility in different systems

Disadvantages: - Limited to 8-pin package, may require additional external components for certain applications - Not suitable for high-voltage or high-current applications

Working Principles

The MAX13087EESA+T is a precision analog front-end IC designed for sensor applications. It provides signal conditioning and amplification for various sensors, such as temperature, pressure, and light sensors. The IC operates on a low-power supply voltage range of 2.7V to 5.5V, making it suitable for battery-powered devices.

The differential input (IN+ and IN-) allows for the connection of various sensor types. The amplified output (OUT) provides the conditioned and amplified sensor signal. The SHDN pin controls the shutdown mode, allowing for power-saving when the IC is not in use.

The MAX13087EESA+T offers high-speed operation with a gain bandwidth product of 10MHz, enabling real-time sensing applications. Its precision amplification ensures accurate signal conditioning, minimizing errors in sensor measurements.

Detailed Application Field Plans

The MAX13087EESA+T can be used in various application fields, including:

  1. Industrial Automation: Provides signal conditioning for industrial sensors, such as pressure transducers, temperature sensors, and proximity sensors.
  2. Automotive Electronics: Enables precise signal conditioning for automotive sensors, including engine temperature sensors, airbag sensors, and tire pressure sensors.
  3. Medical Devices: Offers accurate amplification for medical sensors, such as ECG (Electrocardiogram) sensors, blood pressure sensors, and oxygen level sensors.
  4. Environmental Monitoring: Facilitates signal conditioning for environmental sensors, including humidity sensors, gas sensors, and light sensors.
  5. Consumer Electronics: Supports sensor signal conditioning in consumer electronic devices, such as smartphones, wearables, and home automation systems.

Detailed and Complete Alternative Models

  1. MAX13088EESA+T: Similar to MAX13087EESA+T but with additional features for specific applications.
  2. MAX13089EESA+T: Higher precision version of MAX13087EESA+T with improved accuracy and lower offset voltage.
  3. MAX13090EESA+T: Extended temperature range version of MAX13087EESA+T suitable for harsh environments.
  4. MAX13091EESA+T: Lower power consumption variant of MAX13087EESA+T for energy-efficient applications.

These alternative models offer similar functionality to the MAX13087EESA+T but may have additional features or specifications tailored to specific application requirements.

In conclusion, the MAX13087EESA+T is a low-power, high-speed, precision analog front-end IC designed for sensor applications. Its compact package, wide supply voltage range, and accurate signal conditioning make it suitable for various industries.

10 domande e risposte comuni relative all'applicazione di MAX13087EESA+T nelle soluzioni tecniche

Sure! Here are 10 common questions and answers related to the application of MAX13087EESA+T in technical solutions:

1. What is the MAX13087EESA+T? The MAX13087EESA+T is a high-speed, low-power, quad-channel RS-485/RS-422 transceiver.

2. What is the operating voltage range of MAX13087EESA+T? The operating voltage range of MAX13087EESA+T is from 3V to 5.5V.

3. Can I use MAX13087EESA+T for both RS-485 and RS-422 communication? Yes, MAX13087EESA+T supports both RS-485 and RS-422 communication standards.

4. What is the maximum data rate supported by MAX13087EESA+T? MAX13087EESA+T supports data rates up to 20Mbps.

5. Does MAX13087EESA+T have built-in ESD protection? Yes, MAX13087EESA+T has ±15kV ESD protection on the RS-485/RS-422 bus pins.

6. Can I use MAX13087EESA+T in half-duplex mode? Yes, MAX13087EESA+T can be used in both full-duplex and half-duplex modes.

7. What is the typical supply current of MAX13087EESA+T? The typical supply current of MAX13087EESA+T is 0.8mA.

8. Does MAX13087EESA+T have thermal shutdown protection? Yes, MAX13087EESA+T has built-in thermal shutdown protection to prevent overheating.

9. Can I use MAX13087EESA+T in industrial environments? Yes, MAX13087EESA+T is suitable for industrial environments with its wide operating temperature range (-40°C to +85°C).

10. Is MAX13087EESA+T available in a small package? Yes, MAX13087EESA+T is available in an 8-pin SOIC package, which is compact and space-saving.

Please note that the answers provided here are general and may vary depending on the specific application and requirements. It is always recommended to refer to the datasheet and consult with the manufacturer for detailed information.