Product Details Portlet

EE-SX3173/4173-P Photomicrosensor (Transmissive)

Built-in Photomicrosensor
Connector Type

  • Mounted with M3 screws
  • 5 VDC and 24 VDC power supply types are available
  • Photo IC output (Dark-ON/Light-ON)
  • Connector with secure lock compatible with JST GHR-03
  • Equipped with a Zener diode, which increases noise immunity
    (for EE-SX3173/4173-P3-Z only)
  • Connector with cable is also available (order separately)
    EE-5002 1M
RoHS適合
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AppearanceSensing
method
Connecting
method
Sensing distanceAperture size
H x W (mm)
Output
type
Power
supply
voltage
Operating
mode
Model
    Transmissi
ve
(slot type)
Connector5 mm
(Slot width)
Emitter
1.4 × 1.4

Detector
1.4 × 0.5
Photo IC24 VDCDark-ONEE-SX3173-P3-Z
Light-ONEE-SX4173-P3-Z
5 VDCDark-ONEE-SX3173-P2
Light-ONEE-SX4173-P2
Features
Models available
Power supply voltage: In addition to the conventional 5 VDC supply, model also available with 24 VDC supply best for large devices
Mounting: New model available with M3 screws
          
Downsizing
Smallest class in the industry *: Downsizing of products with unique optical elements is realized
* As of August 2018, according to research by our company

Environment resistance
Connection: Equipped with connectors with locks for resistance
against vibration and shock
           


Application Examples
   

Absolute Maximum Ratings (Ta = 25°C)
ItemSymbolRated valueUnitRemarks
EE-SX3173-P3-Z
EE-SX4173-P3-Z
EE-SX3173-P2
EE-SX4173-P2
Power supply
voltage
VCC26.4 DC5.5 DCV-
Output voltageVOUT26.413.2V-
Output currentIOUT16mA-
Permissible
output
dissipation
POUT80mWFig 1.
Operating
temperature
Topr-25~+55
Storage
temperature
Tstg-30~+80
Soldering
temperature
Tsol--
* Reduce the voltage and current, if necessary, by reference to the temperature rating chart (Fig. 1.), even if the temperature is within the specified range. The product should be used without freezing or condensation.

Electrical and Optical Characteristics (Ta = 25°C)
ItemSymbolValue
24 VDC model5 VDC model
Dark-ONEE-SX3173-P3-ZEE-SX3173-P2
Light-ONEE-SX4173-P3-ZEE-SX4173-P2
Power supply
voltage
VCC24 ±10%V
Ripple (p-p) 10%
5 ±10%V
Ripple (p-p) 10%
Current
consumption
ICC15 mA max.
(With and without
incident)
25 mA max.
(With and without
incident)
Low-level
output voltage
VOL0.3 V max. (IOUT = 16 mA)
(Dark-ON: Without incident,
Light-ON: With incident)
High-level
output voltage
VOH(Vcc x 0.9 V min. (VOUT = VCC, RL = 47 kΩ))
(Dark-ON: With incident,
Light-ON: Without incident)
Sensing object1.4 × 0.5 min. *1
Response
frequency
f 3kHz min.
(VOUT = VCC, IOUT = 16 mA *2)
Operating
ambient light
1000 lx max. *3
Peak emission
wavelength
λP855nm940nm
*1. Objects that do not allow infrared light to pass through them.
*2. The value of the response frequency is measured by rotating the disk as shown below.

     
*3. When fluorescent light is used.

Exterior Specifications

Appearance




Item
L-shaped mounting
EE-SX3173-P3-Z
EE-SX4173-P3-Z
EE-SX3173-P2
EE-SX4173-P2
Connecting methodConnector
WeightApprox. 1.5 g
MaterialsCasePolybutylene terephthalate (PBT)
Emitter/
receiver
Polyphenylene sulfide (PPS) fiber

(Unit: mm)
EE-SX3173-P3-Z
EE-SX4173-P3-Z
EE-SX3173-P2
EE-SX4173-P2
  
Aperture size (H × W)
EmitterDetector
1.4×1.41.4×0.5

    
Terminal No.Name
(1)Ground GND
(2)Output OUT
(3)Power supply VCC

       
Unless otherwise specified, the
tolerances are as shown below.
Dimensions
(mm)
Tolerance
chart
AboveBelow
3±0.2
36±0.24
610±0.29
1018±0.35
1830±0.42
Note: Dimensions in parentheses are for reference only.

Exterior Specifications
   

No.ProductModel/SpecificationQuantityManufacturer
(1)Connector, HS for
101-150 harness
GHR-03V-S1JST
(2)Connector, CT for
101-150 harness
SSHL-002TP0.23JST
(3)Lead wireUL1061
AWG26
3

Wiring
Connector circuit
Number
Lead wire color
1Blue
2Black
3Brown 

Correct Use

Mounting

  • 1.This product is intended to be built into devices so no special measures have been taken against external light interference. When using a DC light sensor in an area exposed to an incandescent lamp or other external light interference, it should be mounted so that the effects of external light interference can be avoided.
  • 2.Mount the sensor securely on a flat surface.
  • 3.Use M3 screws to secure the Photomicro Sensor (use together with spring washers and 6-mm-diameter flat washers to prevent screws from loosening). Use a tightening torque of 0.54 N·m max.
  • 4.Take care that nothing comes into contact with the sensing element of the sensor. Damage to the sensing element will result in poor performance.
  • 5.Before using the sensor, check to make sure that it has not become loose due to vibration or shock.
  •      

Wiring

Surge Prevention 

  • 1.If there is a surge in the power supply, try connecting a Zener diode (ZD with a voltage of 30 to 35 V) or a capacitor (with a capacitance of 0.1 to 1 μF), depending on the operating environment. Use the sensor only after confirming that the surge has been removed.
  •    
  • 2.Do not use a small inductive load, such as a relay.
  •     
  • 3.If photomicrosensor wires are placed in the same tubes or ducts as high-voltage lines or power lines, induction may cause malfunction or damage. Either wire the photomicrosensor separately or place the wires in separate tubes.
  • 4.Make sure that connectors (commercially available) are securely locked.
 

Voltage Output

A sensor with an open collector output can be connected to a counter with a voltage input by connecting a resistor between the power supply and output. Select a resistor with reference to the following example. The resistance of the resistor is normally 4.7 kΩ. The wattage of the resistor is 0.5 W at a power supply voltage of 24 V.

 
  • 1.A sensor with an open collector output can be connected to a counter with a voltage input by connecting a resistor between the power supply and output. Select a resistor with reference to the following example. The resistance of the resistor is normally 4.7 kΩ. The wattage of the resistor is 0.5 W at a power supply voltage of 24 V.

      

Example: EE-SX4173-P3-Z
When inserting a load resistor (R = 5.6 kΩ) in the following device

  • Counter Specifications
  • Input impedance5.6 kΩ
    Voltage judged as high level (input ON)4.5 to 30 VDC
    Voltage judged as low level (input OFF)0 to 2 VDC 

    The high and low levels are found using the following formulas. The input device specifications must satisfy both formulas.

    High level:

       

Note: Refer to the ratings of the sensor for the residual voltage of the load current.


Handling during Wiring

 
  • 1.If a force is applied to the connection area between the terminal and connector by bending or pulling the cable after the wiring is completed, the connector contact part or connection area with the cable may be damaged, resulting in contact failure. Make sure that a stress (external force) as shown in the figure below is not applied to the connection area between the terminal and connector when routing and connecting cables or harnesses.
  •   
  • 2.Do not perform cord wiring when power supply voltage is applied. Doing so may result in damage.

Other Precautions

Make sure the total length of the power cable connected to the product is less than 10 m.

Design

Design should be made so that light is completely shut off during operation. We recommend that sensing objects are made of metal.
(With an infrared light sensor, infrared light will pass through the sensing object made of resin, resulting in unstable detection.)

Connection with PLC (NPN Open Collector Type)
Mounting should be carried out by reference to the figure below.
   
Connection with Counter (NPN Open Collector Type)
Mounting should be carried out by reference to the figure below.

 
  • 1.Non-voltage input
  •   
  • 2.Transistor input (voltage input)
  •   
* For details on external resistance calculation, see the text.

Others

  • 1. Do not connect or disconnect the connector while power is applied. Doing so may result in breakage.
  • 2. Do not mount the sensor in the following places because doing so may cause malfunction or damage.
    • 1) Places exposed to dust or oil mist
    • 2) Places exposed to corrosive gas
    • 3) Places directly or indirectly exposed to water, oil, or chemicals
    • 4) Outdoor or places exposed to intensive light, such as direct sunlight
    • 5) Make sure that the operating ambient temperature is within the rated range.
  • 3. The sensor may be dissolved by exposure to organic solvents, acid, alkali, aromatic hydrocarbon, and chlorinated aliphatic hydrocarbon solvents, causing deterioration in the characteristics. Do not expose the sensor to such chemicals.
  • 4. An output pulse may occur when the power supply is turned ON depending on the power supply and other conditions. Use the sensor in the stable ready-for-detection state reached in 100 ms after turning on the power supply.