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  • 型号: OPB742
  • 制造商: OPTEK
  • 库位|库存: xxxx|xxxx
  • 要求:
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OPB742产品简介:

ICGOO电子元器件商城为您提供OPB742由OPTEK设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 OPB742价格参考。OPTEKOPB742封装/规格:光学传感器 - 反射式 - 模拟输出, Reflective Optical Sensor 0.150" (3.81mm) PCB Mount。您可以下载OPB742参考资料、Datasheet数据手册功能说明书,资料中有OPB742 详细功能的应用电路图电压和使用方法及教程。 

TT Electronics/Optek Technology的OPB742是一款光学传感器,属于反射式传感器且具有模拟输出功能。这种类型的传感器通过检测物体反射回来的光线强度来工作,广泛应用于各种工业和消费电子领域。以下是OPB742的一些典型应用场景:

1. 液位检测:OPB742可以用于液体容器中的液位监测。当传感器发射的光束遇到液面时,部分光线会被反射回传感器,从而改变输出信号。通过分析反射光的变化,可以精确地测量液体的高度。

2. 物体检测与定位:在自动化生产线或机器人导航中,OPB742可用于检测特定位置是否有物体存在。例如,在传送带上安装该传感器,能够实时监控物品是否到达预定位置,确保生产流程顺畅。

3. 颜色识别:由于不同颜色对光的吸收和反射特性不同,OPB742还可以用于简单的颜色识别任务。通过对反射光强度的分析,判断目标物体的颜色。

4. 距离测量:利用三角法原理,OPB742可以实现短距离内的精确测距。它适合用于需要非接触式测量的应用场景,如自动门感应、停车辅助系统等。

5. 速度测量:结合编码器或其他运动部件,OPB742可以用来测量物体的移动速度。通过计算单位时间内反射光变化次数,得出物体的速度信息。

6. 安全防护:在一些机械设备中,OPB742可以用作安全开关,防止操作人员误入危险区域。当有人体或其他障碍物靠近时,传感器会触发警报或停止设备运行。

总之,TT Electronics/Optek Technology的OPB742凭借其高灵敏度和稳定性,在众多需要精确检测和控制的应用场合中发挥着重要作用。
产品参数 图文手册 常见问题
参数 数值
产品目录

传感器,变送器
描述

SENSR OPTO TRANS 3.81MM REFL PCB光学开关(反射型,光电晶体管输出) EMMITER/SENSOR ASSEM
产品分类

光学传感器 - 反射式 - 模拟输出
品牌

TT Electronics/Optek Technology
产品手册

点击此处下载产品Datasheet
产品图片

rohs

符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求
产品系列

光学开关(反射型,光电晶体管输出),Optek / TT electronics OPB742-
数据手册

点击此处下载产品Datasheet
产品型号

OPB742
产品目录页面

点击此处下载产品Datasheet
产品种类

光学开关(反射型,光电晶体管输出)
其它名称

365-1014
包装

散装
反向电压

2 V
响应时间

-
商标

Optek / TT electronics
安装类型

通孔
安装风格

Through Hole
封装

Bulk
封装/外壳

PCB 安装
工作温度

-40°C ~ 80°C
工厂包装数量

25
感应方式

Reflective
感应方法

反射
感应距离

0.150"(3.81mm)
最大工作温度

+ 85 C
最小工作温度

- 40 C
标准包装

25
正向电压

1.8 V
正向电流

20 mA
波长

890 nm
电压-集射极击穿(最大值)

30V
电流-DC正向(If)

40mA
电流-集电极(Ic)(最大值)

-
输出类型

光电晶体管
输出设备

Phototransistor
集电极—发射极最大电压VCEO

30 V
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PDF Datasheet 数据手册内容提取

OPB708, OPB709, OPB740, OPB745 Series  Focused for maximum sensitivity  Phototransistor or photodarlington output  Crosstalk does not exceed specified ICEO  24” (610 mm) wire length OPB7_ _WZ  26 AWG wire size Series Each reflective object sensor in the OPB708, OPB709, OPB740 through OPB746 and OPB740WZ through OPB746WZ series consists of an infrared emitting diode and a NPN silicon phototransistor or a photodarlington. The OPB747WZ and OPB748WZ consist of a Red visible LED and a low light level rejection (R ) NPN silicon phototransistor. The Red LED allows BE better contrast ratio when detecting Black marks on a White surface. All these devices are mounted side-by-side on converging optical axes in a black plastic housing focusing on a small area and depth of field. OPB7 _ _ WZ series are wired (UL approved wire) devices that offer various lens options, including no windows, blue polysulfone windows for dust protection or opaque aperture windows with offset openings for improved target resolution. On each sensor included in this data sheet, the photosensor responds to radiation only when a reflective object passes within its field of view. Custom IC(ON) current binning, special wire lengths and connectorization is available through your OPTEK rep. Reflection Part LED Peak Lead Length/ Distance  Non-contact reflective object sensor Number Wavelength Sensor Wire Type Inch (mm)  Assembly line automation  Machine automation OPB708 Transistor 935 nm  Machine safety OPB709 Darlington  End of travel sensor OPB740  Door sensor OPB741 0.150"  Thermal Paper Mark OPB742 Transistor Minimum OPB743 OPB744 OPB745 Darlington Min=0.08” [2.04mm] 890 nm OPB740WZ Typ=0.15" [3.81mm] CONTAINS POLYSULFONE OPB741WZ Max=0.30” [7.62mm] To avoid stress cracking, we suggest using ND Industries’ Vibra-Tite for thread-locking. OPB742WZ Transistor Vibra-Tite evaporates fast without causing structural failure in OPTEK’s molded plastics. OPB743WZ Applies to: OPB460, OPB470, OPB480, OPB490. 24" / 26 OPB744WZ AWG Wire OPB745WZ Darlington OPB746WZ 935 nm R Transistor BE OPB747WZ 645nm RoHS OPB748WZ Transistor

OPB708, OPB709, OPB740, OPB741, OPB742, OPB743, OPB744, OPB745 [ MILLIMETERS] DIMENSIONS ARE IN: INCHES OPB740WZ, OPB741WZ, OPB742WZ, OPB743WZ, Package Style OPB744WZ, OPB745WZ, OPB746WZ, OPB747WZ, OPB748WZ Part Number Lens Configuration OPB708 D - No windows OPB709 D - No windows OPB740 A - No windows OPB740WZ A - No windows OPB741 B - Blue windows OPB741WZ B - Blue windows OPB742 C - Offset windows OPB742WZ C - Offset windows OPB743 A - No windows OPB746WZ, OPB709, OPB708 OPB740 thru OPB744 OPB747WZ, OPB745, OPB743WZ A - No windows OPB740WZ thru OPB744WZ OPB748WZ OPB745WZ OPB744 B - Blue windows OPB744WZ B - Blue windows OPB745 C - Offset windows OPB745WZ C - Offset windows OPB746WZ B - Blue windows OPB747WZ C - Offset windows Color-PIN # LED Color-PIN # Transistor OPB748WZ C - Offset windows Orange-1 Anode White-4 Collector Green-2 Cathode Blue-3 Emitter

Operating and Storage Temperature Range OPB708, OP709, OPB740, OPB741, OPB742, OPB743, OPB744, OPB745 -40° C to +85° C OPB741WZ, OPB742WZ, OPB743WZ, OPB744WZ, OPB745WZ, OPB746WZ, OPB747WZ, OPB748WZ -40° C to +80° C Lead Soldering Temperature [1/16 inch (1.6mm) from the case for 5 sec. with soldering iron](1) 260°C Input Diode (See OP165 (935 nm), OP265 (890 nm) or OVLAS6CB8 (645 nm) for additional information) Forward DC Current 40 mA Reverse DC Voltage 2 V Power Dissipation(2) 100 mW Sensor Output (See OP505 (Transistor), OP705 (R Transistor) or OP535 (Darlington) for additional Information) BE Collector-Emitter Voltage OPB708 30 V OPB709 15 V OPB740, OPB741, OPB742, OPB743, OPB744 30 V OPB740WZ, OPB741WZ, OPB742WZ, OPB743WZ, OPB744WZ OPB748WZ 30 V OPB745 15 V OPB745WZ 15 V OPB746WZ, OPB747WZ 24 V Emitter-Collector Voltage OPB708 through OPB745, OPB748 5.0 V OPB746 through OPB747 0.4 V Power Dissipation(2) 100 mW Notes: 1. RMA flux is recommended. Duration can be extended to 10 seconds maximum when flow soldering. 2. Derate linearly 1.33 mW° C above 25° C. 645 nm LED (See OVLAS6CB8 for generic information — for reference only) V Forward Voltage - - 2.6 V I = 20 mA F F I Reverse Current - - 100 µA V = 2 V R R 890 nm LED (See OP265 for additional information — for reference only) V Forward Voltage - - 1.8 V I = 40 mA F F I Reverse Current - - 100 µA V = 2 V R R 935 nm LED (See OP165 for additional information — for reference only) V Forward Voltage - - 1.7 V I = 40 mA F F I Reverse Current - - 100 µA V = 2 V R R

Output R Phototransistor (See OP705 for general information — for reference only) BE V Collector-Emitter Breakdown Voltage 24 - - V I = 100 µA (BR)CEO C I Collector Dark Current - - 100 nA V = 10 V, I = 0, E =0 CEO CE F E Output Phototransistor (See OP505 for general information — for reference only) V Collector-Emitter Breakdown Voltage 30 - - V I = 100 µA (BR)CEO C V Emitter-Collector Breakdown Voltage 5 - - V I = 100 µA (BR)ECO E I Collector Dark Current - - 100 nA V = 10 V, I = 0, E =0 CEO CE F E Output Photodarlington (See OP535 for general information — for reference only) V Collector-Emitter Breakdown Voltage 15 - - V I = 100 µA (BR)CEO C V Emitter-Collector Breakdown Voltage 5 - - V I = 100 µA (BR)ECO E Collector-Emitter Dark Current I CEO OPB709, OPB745, OPB745WZ - - 25 µA V = 5 V, I = 0, E =0 CE F E Coupled Saturation Voltage V OPB708 - - 0.40 CE(SAT) V I = 40 mA, I = 3 µA , d = 0.15”(1)(2) OPB709 - - 1.10 F c On-State Collector Current OPB708 0.01 - 3.00 OPB709 1.00 - - OPB740, OPB740WZ 0.05 - 2.50 OPB741, OPB741W Z 0.05 - 2.50 OPB742, OPB742WZ 0.01 - 0.70 V = 5 V, I = 40mA , I (1)(2) mA CE F C(ON) OPB743, OPB743WZ 0.20 - 2.00 d = 0.15” (3.810 mm) OPB744, OPB744WZ 0.20 - 2.00 OPB745, OPB745WZ 5.00 - 26.0 OPB746WZ 0.50 - 2.50 OPB747WZ 0.01 - 0.70 OPB748WZ 0.01 - 0.70 Crosstalk OPB708, OPB709, - - - OPB740, OPB740WZ - - 10.0 OPB741, OPB741WZ - - 10.0 OPB742, OPB742WZ - - 1.0 I (3) OPB743, OPB743WZ - - 20.0 CX µA V = 5 V, I = 40mA OPB744, OPB744WZ - - 20.0 CC F OPB745, OPB745WZ - - 25.0 OPB746WZ - - 1.0 OPB747WZ - - 1.0 OPB748WZ - - 1.0 Notes: 1. The distance from the assembly face to the reflective surface is “d”. 2. Reflective surface is Eastman Kodak (Catalog #190 3061) neutral white test card with 90% diffuse reflectance as a reflecting surface. 3. Crosstalk is the photocurrent measured with current to the input diode, no reflective surface and no ambient light (EE = 0).

LED Forward Voltage vs Forward Current vs Transistor Output vs Distance OPB708 - Output vs Distance Temperature 1.40 1.50 Normalized at 0.150" Kodak 90% 1.20 1.40 Kodak 90% Kodak 19% s) 1.00 Copier Paper ge olt Avery Label 1lta.30 put (v 0.80 Retro Material rd Vo ut a O 1rw.20 d o ze 0.60 l F mali ica -40° C 1p.10 Nor 0.40 Ty -20° C 0° C 20° C 1.00 40° C 0.20 60° C 80° C 0.00 0.90 0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 0 5 10 15 20 25 30 35 40 Distance (inches) Forward Current (mA) Transistor Output vs Forward Current vs OPB708 - OutputT vesm Fpoerrwataurrde C urrent vs Temp 2.50 Normalized Collector Current at 20mA and 20°C -40° C 2.00 -20° C 0° C 20° C ut 40° C p 60° C ut 1.50 80° C O d e z ali m 1.00 r o N 0.50 0.00 0.00 5.00 10.00 15.00 20.00 25.00 30.00 35.00 40.00 Forward Current (mA)

LED Forward Voltage vs DaOrPliBng7t0o9n - OOuuttppuutt vvss DDiissttaannccee Forward Current vs Temperature 1.40 1.50 Normalized at 0.150" Kodak 90% 1.20 1.40 Kodak 90% Kodak 19% ut (volts) 1.00 CARvoeeptrrioye rML Paaabtepereliarl oltage 1.30 p 0.80 V ut d O ar d w 1.20 ze 0.60 or mali al F c -40° C or pi 1.10 N 0.40 y -20° C T 0° C 20° C 0.20 1.00 40° C 60° C 80° C 0.00 0.90 0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90 1.00 0 5 10 15 20 25 30 35 40 Distance (inches) Forward Current (mA) Darlington Output vs Forward Current vs OPB709 - Output vs Forward Current vs Temp Temperature 2.50 Normalized Collector Current at 20mA and 20°C 2.00 -40° C -20° C 0° C 20° C ut 40° C Outp 1.50 6800°° CC d e z ali m 1.00 r o N 0.50 0.00 0.00 5.00 10.00 15.00 20.00 25.00 30.00 35.00 40.00 Forward Current (mA)

Mouser Electronics Authorized Distributor Click to View Pricing, Inventory, Delivery & Lifecycle Information: T T Electronics: OPB742 OPB745 OPB740W OPB741W OPB742W OPB743W OPB744W OPB745W OPB740WZ OPB741WZ OPB742WZ OPB743WZ OPB744WZ OPB745WZ OPB740 OPB741 OPB743 OPB708 OPB709 OPB744 OPB746WZ OPB747WZ OPB748WZ