Omron Photo Micro Sensors

January 21, 2022 | POSTED IN: Omron All Products Products

Omron Photo Micro Sensors

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What Is a Photo micro Sensor?

A Photo micro sensor is a small photoelectronic sensor with an amplifier built into it that is used primarily as a component for building into equipment. Like any ordinary photoelectric sensor with a built-in amplifier, it is used, for example, in applications to detect passing objects or in positioning applications. The sensing object is most often a piece of metal called a "dog". When the dog enters the sensing area, it is optically detected by the Photo micro sensor, which outputs a signal.

[/vc_column_text][divider line_type="No Line"][nectar_btn size="small" button_style="regular" button_color_2="extra-color-gradient-1" icon_family="default_arrow" url="https://sg.electgo.com/products?utf8=%E2%9C%93&search=photomicro+" text="Shop for Photo micro Sensors"][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]

Features

Photo microsensors have the following advantages over ordinary photoelectric sensors with built-in amplifiers

1. Many Different Shapes in One Model Series The EE-SX67 Series, for example, has models with eight different slot configurations, allowing the customer to choose the best configuration for the installation position.

2. Low Price Ratings and performances are limited to those required for building into equipment, and the required IP degree of protection is easier to achieve, making prices very reasonable.

3. Downsizing Is Possible with the Sensing Distances Required for Building into Equipment The standard sensing distances (slot width) are specifically intended to be used for building into equipment. Slot-type Sensors, for example, have a 3.6 mm or 5 mm sensing distance. Diffuse-reflective and Limited Reflective Sensors have a sensing distance of less than 5 mm, and Retroreflective and Through-beam Sensors, less than 1 m.

4. Indicator Lighting Mode The indicator on many Photo micro sensors lights when light is incident. Some Photo micro sensors have specific models on which the indicator lights when light is interrupted. When lighting the indicator for position adjustment applications of Slot-type Sensors, for example, it may be more convenient to use a model that lights the indicator when light is interrupted. When using the indicator to check the power supply status, on the other hand, it may be convenient to use a model that lights the indicator when light is incident.

5. Other Specifications: Degree of Protection and Output Current A waterproof structure is not required because it is assumed the Photo micro sensors will be built into other equipment, and the output current rating can be kept low. Also, most models can operate on a 5-VDC power supply.

[/vc_column_text][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]

Operating Principles

[/vc_column_text][divider line_type="No Line"][vc_row_inner column_margin="default" text_align="left"][vc_column_inner column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" column_border_width="none" column_border_style="solid"][vc_column_text]

1. Properties of Light

Rectilinear Propagation

[/vc_column_text][/vc_column_inner][vc_column_inner column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" column_border_width="none" column_border_style="solid"][image_with_animation image_url="12394" alignment="" animation="None" border_radius="none" box_shadow="none" max_width="100%"][/vc_column_inner][/vc_row_inner][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]When light travels through air or water, it always travels in a straight line. The slit on the outside of a Through-beam Sensor that is used to detect small objects is an example of how this principle is applied to practical use.[/vc_column_text][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]Refraction[/vc_column_text][/vc_column][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][image_with_animation image_url="12400" alignment="" animation="None" border_radius="none" box_shadow="none" max_width="100%"][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]Refraction is the phenomenon of light being deflected as it passes obliquely through the boundary between two media with different refractive indices.[/vc_column_text][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]Reflection (Regular Reflection, Retroreflection, and Diffuse Reflection)[/vc_column_text][/vc_column][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][image_with_animation image_url="12401" alignment="" animation="None" border_radius="none" box_shadow="none" max_width="100%"][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]A flat surface, such as glass or a mirror, reflects light at an angle equal to the incident angle of the light. This kind of reflection is called regular reflection. Retroreflectors (also called a corner cube) take advantage of this principle by arranging three flat surfaces perpendicular to each other. "Retro" means "to return toward the source." The light reflected off the reflectors travels back towards the emitter, thus the term "retroreflective". Matte surfaces, such as white paper, reflect light in all directions. This scattering of light is called diffuse reflection. This principle is the sensing method used by Diffuse-reflective Sensors.[/vc_column_text][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]

2. Light Sources

Light Generation

Non-modulated Light

[/vc_column_text][/vc_column][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][image_with_animation image_url="12406" alignment="" animation="None" border_radius="none" box_shadow="none" max_width="100%"][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]Non-modulated light facilitates high-speed response by continuously radiating a constant amount of light. There is the drawback, however, of susceptibility to external light interference.[/vc_column_text][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]Modulated Light[/vc_column_text][divider line_type="No Line"][vc_column_text]Modulated light is not affected by sunlight, light from incandescent bulbs, and other external light interference. An LED emitter is pulse-lighted, and the received signal is processed to remove the DC component.[/vc_column_text][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][image_with_animation image_url="12409" alignment="" animation="None" border_radius="none" box_shadow="none" max_width="100%"][/vc_column][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]

Classification

1. Classification by Sensing Method

(1) Slot Sensors Slot Sensors are suitable for applications using a thin sensing object, or "dog," that require a highly precise sensing position. Setup is easy because no optical axis adjustment is needed. There are many product variations. The necessary configuration, connection method, and other items can be selected from a wide array of models. (2) Through-beam Sensors Through-beam Sensors are suitable for applications that require relatively long sensing distances. (3) Retroreflective Sensors Retroreflective Sensors are suitable for applications that require relatively long sensing distances. They have the advantage of requiring less work for wiring and optical axis adjustment when compared to Through-beam Sensors. (4) Diffuse-reflective Sensors Diffuse-reflective Sensors are suitable for applications where the sensing object is thick and won't fit into the slot of a Slot Sensor. (5) Limited-reflective Sensors Limited-reflective Sensors are basically the same as Diffuse-reflective Sensors, but they are suitable when background objects are present. (With Diffuse-reflective Sensors, the presence of a background object with a higher reflectivity than the sensing object (e.g., metals with mirror finishing) may cause sensing instability.)[/vc_column_text][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]

2. Considerations when Choosing a Sensing Method

Shape, slot width, connection (pre-wired/connector)
Presence or absence of external light interference (nonmodulated light/modulated light)
Output configuration (Light-ON/Dark-ON, NPN/PNP)
Indicator (Light-ON/Dark-ON)

Shape, sensing distance
Output configuration (Light-ON/Dark-ON)

[/vc_column_text][/vc_column_inner][/vc_row_inner][vc_row_inner column_margin="default" text_align="left"][vc_column_inner column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/2" column_border_width="none" column_border_style="solid"][vc_column_text](3) Retroreflective Sensors

Sensing distance
Output configuration (Light-ON/Dark-ON)

Shape, sensing distance
Presence or absence of background objects (Diffusereflective/Limited-reflective Sensors)
External light interference (non-modulated light/modulated light)
Output configuration (Light-ON/Dark-ON)

[/vc_column_text][/vc_column_inner][/vc_row_inner][/vc_column][/vc_row][vc_row type="in_container" full_screen_row_position="middle" scene_position="center" text_color="dark" text_align="left" overlay_strength="0.3" shape_divider_position="bottom"][vc_column column_padding="no-extra-padding" column_padding_position="all" background_color_opacity="1" background_hover_color_opacity="1" column_shadow="none" column_border_radius="none" width="1/1" tablet_text_alignment="default" phone_text_alignment="default" column_border_width="none" column_border_style="solid"][vc_column_text]

What Is a Photo micro Sensor?

A Photo micro sensor is a small photoelectronic sensor with an amplifier built into it that is used primarily as a component for building into equipment.
Like any ordinary photoelectric sensor with a built-in amplifier, it is used, for example, in applications to detect passing objects or in positioning applications. The sensing object is most often a piece of metal called a “dog”. When the dog enters the sensing area, it is optically detected by the Photo micro sensor, which outputs a signal.

Shop for Photo micro Sensors

Features

Photo microsensors have the following advantages over ordinary photoelectric sensors with built-in amplifiers

1. Many Different Shapes in One Model Series

The EE-SX67 Series, for example, has models with eight different slot configurations, allowing the customer to choose the best configuration for the installation position.

2. Low Price

Ratings and performances are limited to those required for building into equipment, and the required IP degree of protection is easier to achieve, making prices very reasonable.

3. Downsizing Is Possible with the Sensing Distances Required for Building into Equipment

The standard sensing distances (slot width) are specifically intended to be used for building into equipment. Slot-type Sensors, for example, have a 3.6 mm or 5 mm sensing distance. Diffuse-reflective and Limited Reflective Sensors have a sensing distance of less than 5 mm, and Retroreflective and Through-beam Sensors, less than 1 m.

4. Indicator Lighting Mode

The indicator on many Photo micro sensors lights when light is incident. Some Photo micro sensors have specific models on which the indicator lights when light is interrupted. When lighting the indicator for position adjustment applications of Slot-type Sensors, for example, it may be more convenient to use a model that lights the indicator when light is interrupted. When using the indicator to check the power supply status, on the other hand, it may be convenient to use a model that lights the indicator when light is incident.

5. Other Specifications: Degree of Protection and Output Current

A waterproof structure is not required because it is assumed the Photo micro sensors will be built into other equipment, and the output current rating can be kept low. Also, most models can operate on a 5-VDC power supply.

Operating Principles

1. Properties of Light

Rectilinear Propagation

When light travels through air or water, it always travels in a straight line. The slit on the outside of a Through-beam Sensor that is used to detect small objects is an example of how this principle is applied to practical use.

Refraction

Refraction is the phenomenon of light being deflected as it passes obliquely through the boundary between two media with different refractive indices.

Reflection (Regular Reflection, Retroreflection, and Diffuse Reflection)

A flat surface, such as glass or a mirror, reflects light at an angle equal to the incident angle of the light. This kind of reflection is called regular reflection. Retroreflectors (also called a corner cube) take advantage of this principle by arranging three flat surfaces perpendicular to each other. “Retro” means “to return toward the source.” The light reflected off the reflectors travels back towards the emitter, thus the term “retroreflective”.
Matte surfaces, such as white paper, reflect light in all directions. This scattering of light is called diffuse reflection. This principle is the sensing method used by Diffuse-reflective Sensors.

2. Light Sources

Light Generation

Non-modulated Light

Non-modulated light facilitates high-speed response by continuously radiating a constant amount of light. There is the drawback, however, of susceptibility to external light interference.

Modulated Light

Modulated light is not affected by sunlight, light from incandescent bulbs, and other external light interference. An LED emitter is pulse-lighted, and the received signal is processed to remove the DC component.

Classification

Classification by Sensing Method

(1) Slot Sensors
Slot Sensors are suitable for applications using a thin sensing object, or “dog,” that require a highly precise sensing position. Setup is easy because no optical axis adjustment is needed. There are many product variations. The necessary configuration, connection method, and other items can be selected from a wide array of models.

(2) Through-beam Sensors
Through-beam Sensors are suitable for applications that require relatively long sensing distances.

(3) Retroreflective Sensors
Retroreflective Sensors are suitable for applications that require relatively long sensing distances. They have the advantage of requiring less work for wiring and optical axis adjustment when compared to Through-beam Sensors.

(4) Diffuse-reflective Sensors
Diffuse-reflective Sensors are suitable for applications where the sensing object is thick and won’t fit into the slot of a Slot Sensor.

(5) Limited-reflective Sensors
Limited-reflective Sensors are basically the same as Diffuse-reflective Sensors, but they are suitable when background objects are present. (With Diffuse-reflective Sensors, the presence of a background object with a higher reflectivity than the sensing object (e.g., metals with mirror finishing) may cause sensing instability.)

2. Considerations when Choosing a Sensing Method

(1) Slot Sensors

Shape, slot width, connection (pre-wired/connector)
Presence or absence of external light interference (nonmodulated light/modulated light)
Output configuration (Light-ON/Dark-ON, NPN/PNP)
Indicator (Light-ON/Dark-ON)

(2) Through-beam Sensors

Shape, sensing distance
Output configuration (Light-ON/Dark-ON)

(3) Retroreflective Sensors

Sensing distance
Output configuration (Light-ON/Dark-ON)

(4) Diffusive/Limited-reflective Sensors

Shape, sensing distance
Presence or absence of background objects (Diffusereflective/Limited-reflective Sensors)
External light interference (non-modulated light/modulated light)
Output configuration (Light-ON/Dark-ON)

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Omron Photo Micro Sensors