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  • 2024-11-26 15:23:42
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Demystifying Infrared (IR) Emitter Specifications: What Does 0.5mW/sr @ 20mA Mean?

Infrared (IR) emitters are critical components in a wide range of applications, from remote controls to industrial automation and medical devices. Among the many specifications listed for these components, one parameter that often raises questions is 0.5mW/sr @ 20mA. This article explains what this specification means, its significance in IR emitter performance, and how to interpret it for real-world applications.

Understanding IR Emitter Specifications

When reviewing IR emitter datasheets, various parameters help determine the suitability of the component for a specific application. Key among these is 0.5mW/sr @ 20mA, which relates to the radiant intensity of the emitter. Breaking it down:

  1. mW/sr (milliwatts per steradian): This unit measures radiant intensity, indicating the power of infrared light emitted per unit of solid angle.
  2. @ 20mA: This specifies that the radiant intensity measurement was taken when the emitter is driven with a forward current of 20 milliamps (mA).

Radiant intensity, expressed in mW/sr, is a directional measurement. It describes how much infrared energy is emitted in a specific direction, helping engineers assess the focus and reach of the IR emitter.

 

Significance of 0.5mW/sr in IR Emitters

1. Directionality and Beam Focus

A radiant intensity of 0.5mW/sr means the emitter outputs 0.5 milliwatts of infrared power per steradian. This value is essential for understanding how concentrated the IR beam is. For applications like remote controls, where a focused beam is needed to reach a receiver across a room, this parameter indicates the effectiveness of the emitter in delivering sufficient power to the target.

2. Efficiency in Power Usage

The specified 0.5mW/sr @ 20mA highlights the efficiency of the IR emitter. It shows how much radiant intensity can be achieved with a given forward current. Components with higher radiant intensity at lower currents are generally more energy-efficient, making them suitable for battery-powered devices.

3. Application-Specific Suitability

Different applications require varying levels of radiant intensity:

  • High Radiant Intensity: Suitable for long-range applications like proximity sensors and long-distance communication systems.
  • Moderate Radiant Intensity: Ideal for short-range uses, such as gesture recognition or compact remote controls.

 

Exploring Other Key Specifications

Forward Voltage (1.2V)

The forward voltage of 1.2V indicates the voltage required to drive the IR emitter at 20mA. A low forward voltage translates to reduced energy consumption, particularly crucial in portable devices.

Viewing Angle (160°)

A viewing angle of 160° indicates the emitter's beam spread. A wide viewing angle is suitable for applications like gesture control, where coverage over a broader area is essential. In contrast, narrow angles focus the IR beam, increasing intensity in a specific direction.

Output Power and Efficiency

The combination of 0.5mW/sr radiant intensity and 0.5mW total radiant power defines the emitter's ability to produce infrared light efficiently. This balance is particularly vital in systems where power budgets are constrained.

 

Applications of IR Emitters with 0.5mW/sr

1. Consumer Electronics

Remote controls for televisions, air conditioners, and other appliances rely on IR emitters with moderate radiant intensity and wide viewing angles to ensure reliable communication with the receiver.

2. Industrial Automation

In factory automation, IR emitters with specifications like 0.5mW/sr @ 20mA are used in proximity sensors and object detection systems. Their efficiency and moderate intensity allow consistent performance in demanding environments.

3. Medical Devices

Applications such as pulse oximeters and IR thermometers utilize IR emitters for their precision and controlled beam properties. The radiant intensity ensures accurate readings while minimizing energy usage.

4. Automotive Systems

IR emitters play a role in driver assistance systems, where they enable functionalities like obstacle detection and gesture control. High efficiency and consistent radiant intensity are critical for these safety applications.

 

How to Choose the Right IR Emitter

When selecting an IR emitter for your project, consider the following:

  1. Radiant Intensity Requirements: Applications requiring longer range or focused beams need higher mW/sr values.
  2. Viewing Angle: Choose a wide-angle emitter for broad coverage and a narrow-angle emitter for targeted applications.
  3. Efficiency: Look for emitters with high radiant intensity at low current values to optimize power consumption.
  4. Package Type: Compact, leadless SMD (Surface Mount Device) packages, like the 2-SMD type in this specification, are suitable for space-constrained designs.

 

Conclusion

The specification 0.5mW/sr @ 20mA provides crucial insight into an IR emitter's performance, particularly its directionality and efficiency. For procurement professionals and engineers, understanding this parameter helps ensure the right emitter is chosen for the application, balancing performance, and energy efficiency.

Whether for consumer electronics, industrial automation, or medical devices, components like the 940nm IR emitter with 0.5mW/sr radiant intensity and a wide viewing angle offer reliable and versatile solutions in modern electronic systems. By carefully analyzing specifications and aligning them with project needs, engineers can optimize system performance while minimizing power usage.

For more information or to request a quote, please feel free to send us an RFQ.

 

Some Model Numbers

IR12-21C/TR8

APA3010F3C-GX

VSMY2941GX01

SFH 4045N

TSHF5210

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