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ULN2003AIPWE4
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ULN2003AIPWE4

Product Overview

Category

The ULN2003AIPWE4 belongs to the category of integrated circuits (ICs) and specifically falls under the family of Darlington Transistor Arrays.

Use

It is commonly used as a high-voltage, high-current Darlington transistor array. The device consists of seven NPN Darlington pairs that feature high-voltage outputs with common-cathode clamp diodes for switching inductive loads.

Characteristics

  • High-Voltage Outputs
  • High-Current Outputs
  • Common-Cathode Clamp Diodes
  • Suitable for Switching Inductive Loads

Package

The ULN2003AIPWE4 is available in a 16-pin wide body SOIC (PW) package.

Packaging/Quantity

The product is typically supplied in reels with a quantity of 2500 units per reel.

Specifications

  • Maximum Collector Current: 500 mA
  • Maximum Collector-Emitter Voltage: 50 V
  • Number of Channels: 7
  • Input Voltage: 5V to 15V
  • Output Voltage: 50V
  • Operating Temperature Range: -20°C to 85°C

Detailed Pin Configuration

  1. Input for Driver 1 (IN1)
  2. Output for Driver 1 (OUT1)
  3. Ground (COM)
  4. Output for Driver 2 (OUT2)
  5. Input for Driver 2 (IN2)
  6. Output for Driver 3 (OUT3)
  7. Input for Driver 3 (IN3)
  8. Output for Driver 4 (OUT4)
  9. Input for Driver 4 (IN4)
  10. Output for Driver 5 (OUT5)
  11. Input for Driver 5 (IN5)
  12. Output for Driver 6 (OUT6)
  13. Input for Driver 6 (IN6)
  14. Output for Driver 7 (OUT7)
  15. Input for Driver 7 (IN7)
  16. Positive Supply Voltage (VCC)

Functional Features

  • High-Voltage and High-Current Outputs
  • Common-Cathode Clamp Diodes for Inductive Load Protection
  • TTL/CMOS Compatible Inputs

Advantages

  • Simplifies High-Power Control Applications
  • Reduced Component Count
  • Easy Interfacing with Microcontrollers

Disadvantages

  • Limited Maximum Collector Current
  • Higher Power Dissipation compared to MOSFET-based Solutions

Working Principles

The ULN2003AIPWE4 operates by utilizing the Darlington transistor configuration to provide high current gain. When an input signal is applied, the corresponding output drives the connected load, making it suitable for driving various inductive loads such as relays, solenoids, and stepper motors.

Detailed Application Field Plans

  • Industrial Automation: Control of solenoid valves and actuators
  • Automotive Electronics: Driving automotive relays and motors
  • Robotics: Controlling stepper motor drivers
  • Consumer Electronics: Interface with microcontrollers for home automation applications

Detailed and Complete Alternative Models

  • ULN2003APG
  • ULN2003ADR
  • ULN2003ADRG4
  • ULN2003ANE4

In conclusion, the ULN2003AIPWE4 is a versatile and widely used Darlington transistor array that simplifies high-power control applications while offering protection for inductive loads. Its integration of multiple transistors into a single package reduces component count and facilitates easy interfacing with microcontrollers, making it a popular choice across various industries.

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Liste 10 almindelige spørgsmål og svar relateret til anvendelsen af ULN2003AIPWE4 i tekniske løsninger

  1. What is ULN2003AIPWE4?

    • ULN2003AIPWE4 is a high-voltage, high-current Darlington transistor array commonly used for driving relays, stepper motors, and other high-power devices.

  2. What is the maximum voltage and current rating of ULN2003AIPWE4?

    • The ULN2003AIPWE4 can handle a maximum voltage of 50V and a continuous output current of 500mA per channel.

  3. How many channels does ULN2003AIPWE4 have?

    • ULN2003AIPWE4 has 7 channels, each consisting of a Darlington pair.

  4. Can ULN2003AIPWE4 be used to drive a stepper motor?

    • Yes, ULN2003AIPWE4 is commonly used to drive small to medium-sized stepper motors due to its high-current capability and multiple channels.

  5. What are the typical applications of ULN2003AIPWE4?

    • Typical applications include relay drivers, stepper motor drivers, LED displays, and other high-current switching applications.

  6. What are the input and output configurations of ULN2003AIPWE4?

    • The inputs are compatible with TTL and CMOS logic levels, while the outputs are open-collector, capable of handling higher voltages and currents.

  7. Is it necessary to use external diodes with ULN2003AIPWE4?

    • Yes, it is recommended to use freewheeling diodes when driving inductive loads such as relays or motors to protect the transistors from voltage spikes.

  8. Can ULN2003AIPWE4 be used in automotive applications?

    • Yes, ULN2003AIPWE4 is suitable for automotive applications due to its high-voltage and high-current capabilities.

  9. What is the thermal resistance of ULN2003AIPWE4?

    • The thermal resistance from junction to ambient is typically around 100°C/W, so proper heat sinking may be required for high-power applications.

  10. Are there any common issues or limitations when using ULN2003AIPWE4?

    • One common limitation is the maximum output current per channel, which is 500mA. Additionally, care should be taken to manage heat dissipation, especially when driving high currents.