EE-SX4096-W11

## **Photomicrosensor (Transmissive) EE-SX3096-W11/4096-W11** 

**Be sure to read** _**Precautions**_ **on page 24.** 

## ■ **Dimensions** 

**Note:** All units are in millimeters unless otherwise indicated. 

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25±0.2<br>Two, R1<br>19±0.15 Optical axis<br>6±0.2 5±0.2<br>Two, 3.2±0.2 dia. holes Four, C0.3 Two, C2<br>12.6±0.2<br>Emitter 3.4±0.2 Detector<br>Sensing window 2.1±0.15 B A Optical axis 2.1±0.15<br>10±0.2<br>0.5±0.1 7.2±0.2 3.1 0.5±0.1<br>2.5±0.1<br>610MIN<br>G VO 3.55 Four, Wires UL1061, K 4 A<br>Cross section B-B 11.6±0.2 AWG#28 Cross section A-A<br>B A<br>Internal Circuit<br>A G<br>O<br>Unless otherwise specified, the<br>K V<br>tolerances are as shown below.<br>Terminal<br>Color Name Dimensions           Tolerance<br>No.<br>A     Red  Anode 3 mm max. ±0.3<br>K  Black Cathode 3 < mm ≤ 6 ±0.375<br>V   White Power supply<br>6 < mm ≤ 10 ±0.45<br>(Vcc)<br>10 < mm ≤ 18 ±0.55<br>O  Blue Output (OUT)<br>G  Green Ground (GND) 18 < mm ≤ 30 ±0.65<br>**----- End of picture text -----**<br>


## ■ **Features** 

- Light-receiving element and amplification circuits contained in one chip. 

- Can use a power supply voltage of 4.5 to 16 V. 

- Connects directly to C-MOS or TTL. 

- Dark-ON Sensor: EE-SX3096-W11 

- Light-ON Sensor: EE-SX4096-W11 

- Pre-wired Sensors (AWG28). 

- Solder-less lead wire connection to increase reliability. 

- With a horizontal aperture. 

## ■ **Absolute Maximum Ratings (Ta = 25**  **C)** 

|||||
|---|---|---|---|
||**Item**|**Symbol**|**Rated value**|
|**Emitter**|**Forward current**|IF|50 mA<br>(see note 1)|
||**Reverse voltage**|VR|4 V|
|**Detector**|**Power supply volt-**<br>**age**|VCC|16 V|
||**Output voltage**|VOUT|28 V|
||**Output current**|IOUT|16 mA|
||**Permissible output**<br>**dissipation**|POUT|250 mW<br>(see note 1)|
|**Ambient tem-**<br>**perature**|**Operating**|Topr|–25C to 75C|
||**Storage**|Tstg|–25C to 85C|



- **Note: 1.** Refer to the temperature rating chart if the ambient temperature exceeds 25  C. 

   **2.** If you mount the Sensor with screws, use M3 screws, spring washers, and flat washers and use a tightening torque of 0.5 N·m max. 

   **3.** You should use the product in the condition without any stress on the cable. 

## ■ **Electrical and Optical Characteristics (Ta = 25**  **C)** 

||**Item**|**Symbol**|**Value**|**Condition**|
|---|---|---|---|---|
|**Emitter**|**Forward voltage**<br>**Reverse current**<br>**Peak emission wave-**<br>**length**|VF<br>|1.2 V typ., 1.5 V max.|IF= 20 mA|
|||IR<br>|0.01A typ., 10A max.|VR= 4 V|
|||P<br>|940 nm|IF= 20 mA|
|**Detector**|**Low-level output volt-**<br>**age**<br>**High-level output volt-**<br>**age**<br>**Current consumption**<br>**Peak spectral sensitivi**<br>**ty wavelength**|VOL<br>|0.12 V typ., 0.4 V max.|VCC= 4.5 to 16 V, IOL= 16 mA, IF= 0 mA (EE-SX3096),<br>IF= 5 mA (EE-SX4096)|
|||VOH<br>|15 V min.|VCC= 16 V, RL= 1 k, IF= 5 mA (EE-SX3096),<br>IF= 0 mA (EE-SX4096)|
|||ICC<br>|3.2 mA typ., 10 mA max.|VCC= 16 V|
|||**-**<br>P<br>|870 nm|VCC= 4.5 to 16 V|
|**LED current when output is OFF**||IFT<br>|2 mA typ., 5 mA max.|VCC= 4.5 to 16 V|
|**LED current when output is ON**|||||
|**Hysteresis**||H<br>|15% typ.|VCC= 4.5 to 16 V (see note 1)|
|**Response frequency**||f<br>|3kHz min.|VCC= 4.5 to 16 V, IF= 15 mA, IOL= 16 mA (see note 2)|
|**Response delay time**||tPLH(tPHL)<br>|3s typ.|VCC= 4.5 to 16 V, IF= 15 mA, IOL= 16 mA (see note 3)|
|**Response delay time**||tPHL(tPLH)<br>|20s typ.|VCC= 4.5 to 16 V, IF= 15 mA, IOL= 16 mA (see note 3)|



**EE-SX3096-W11/4096-W11** Photomicrosensor (Transmissive) 

148 

**Note:** 1. Hysteresis denotes the difference in forward LED current value, expressed in percentage, calculated from the respective forward LED currents when the photo IC in turned from ON to OFF and when the photo IC in turned from OFF to ON. 

2. The value of the response frequency is measured by rotating the disk as shown below. 

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2.1 mm<br>0.5 mm Disk<br>0.5 mm<br>**----- End of picture text -----**<br>


3. The following illustrations show the definition of response delay time. The value in the parentheses applies to the EE-SX4096. 

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Input Input<br>o__<br>—+t Output :<br>Output i. ——=t 6<br>j teu fee tee<br>EE-SX3096 EE-SX4096<br>**----- End of picture text -----**<br>


## ■ **Engineering Data** 

**Note:** The values in the parentheses apply to the EE-SX4096. 

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Forward Current vs. Collector  Forward Current vs. Forward  LED Current vs. Supply Voltage<br>Dissipation Temperature Rating Voltage Characteristics (Typical) (Typical)<br>| Ta = 25 ° C<br>RL = 1 k Ω<br>:[| - : PEt tty Edy +<br>* ee so Ta =  | − . 30 ° C IN om | bo“reseeh gr<br>40 ete 40 a Ta = 25 ° C : 4 5 IFT OFF (IFT ON) ~- amlEsk: ou:Hoe<br>Ta = 70 |: ° C it ; \ | mt ee<br>- 4 a a +} —t<br>: | : :| int is IFT ON (I f FT OFF) i<br>ad 100 20 : eo -<br>“3 50 10 — +: 1 ; es ee<br>:<br>a20 Qo rl 4c 60 60 12] 9 02 04 G6 O8 1 12 a4 #16 #18 a 2 4 6 a 10 12 4 16<br>Ambient temperature Ta ( ° C) Forward voltage VF (V) Supply voltage VCC (V)<br>LED Current vs. Ambient Tempera- Low-level Output Voltage vs.  Low-level Output Voltage vs.<br>ture Characteristics (Typical) Output Current (Typical) Ambient Temperature Character-<br>istics (Typical)<br>;; VRCCL = 330  = 5 V Ω —— =iPtya Ta = 25VIFCC= 0 mA (15 mA)  = 5 V  ° C \ eaoR = Drcur- - V IFCC = 0 mA (15 mA) = 5 V<br>. IFT OFF (IFT ON) cae HH det||’ ee oe4p. OE TeONE)<br>+ _——— ae oe FRR =H ol . IOL tt  = 16 mA ; i<br>SEE Sea Sa mye ath<br>GF L__! | —ETT CoryFt th o1 | foe = Loi<br>IFT ON (IFT OFF)<br>1 H H _ . nae—,<br>IOL = 5 mA<br>. tos:: cut Cet ee |<br>“BD a0) -BO a 0 40 a} aa 1 a0 100 “50-40-30 -20 -10 0 10 20 * 46 5 GO 7% 80<br>Ambient temperature Ta ( ° C) Output current IC (mA) Ambient temperature Ta ( ° C)<br>Current Consumption vs. Supply  Response Delay Time vs. Forward  Repeat Sensing Position<br>Voltage (Typical) Current (Typical) Characteristics (Typical)<br>Ta = 25 ° C VCC = 5 V  Ta = 25 ° C<br>35an  IF = 0 mA (15 mA) 1 .8 Ta = 25RL = 330  ° C  Ω a Me t VIFCC = 15 mA = 5 V<br>V(EE-SX3OUT @@ ) n = repeat 20 timesRL = 330  Ω<br>28 HJo. a 26 :. V(EE-SX4OUT @@ ) ey ia (OFF)  ON fy d 1 = 0.01 mm<br>Zh teeerfee au =d |} Center of optical axis<br>: + {——____ —— Es) \/ wa te :T Hi =—ath-0-+ d<br>45f-- fe n ; . 16 b vt - H |<br>t en i 1 i . ~ = “Y,EAUT.we Ir log Ru Veo i1H :<br>os . b.a Ww pclae——— sep foe Vou Uhi<br>  OFF<br>° i aPPPS| [7] (ON) eee<br>°aan2 4 6 8_ Ww we ys"1 16 5o 5 10[sy 15 is)ooo.a8 30 35 40 -0.4 -0.3 -0.2 -0.1 0 GND 0.1 0.2 Hf 0.3 0.4 0.5 0.6<br>Supply voltage VCC (V) Forward current IF (mA) Distance d (mm)<br> (mW)<br>C<br> (mA)<br> (mA) F  (mA)<br>F FT<br>LED current  I<br>Forward current  I<br>Forward current  I<br>Output allowable dissipation P<br> (V)  (V)<br>OL OL<br> (mA)<br>FT<br>LED current  I<br>Low level output voltage  V Low level output voltage  V<br>s)<br>μ<br> (<br>PLH<br>, t<br>PHL<br>Output transistor<br>Current consumption  Icc (mA)<br>Response delay time t<br>**----- End of picture text -----**<br>


**EE-SX3096-W11/4096-W11** Photomicrosensor (Transmissive) 

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