LINEAR OUTPUT PHOTO IC Photo IC Sensors 9

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Manufacturers
    • Ams Ag
    • Broadcom
    • Everlight Electronics
    • Hamamatsu Photonics Kk
    • Honeywell Sensing And Control
    • Industrial Fiber Optics
    • Infineon Technologies
    • Maxim Integrated
    • Molectron Detector
    • Omron
    • Onsemi
    • Osram Opto Semiconductors
    • ROHM
    • Renesas Electronics
    • STMicroelectronics
    • Sharp Corporation
    • Telefunken Microelectronics
    • Texas Instruments
    • Toshiba
    • Tt Electronics Plc
    • Vishay Intertechnology
Optoelectronic Type (1)
    • LINEAR OUTPUT PHOTO IC
    • LOGIC OUTPUT PHOTO IC
Mounting Feature
    • SURFACE MOUNT
    • THROUGH HOLE MOUNT
No. of Terminals
    • 14
    • 20
    • 28
    • 3
    • 4
    • 5
    • 6
    • 8
Terminal Finish
    • GOLD
    • MATTE TIN
    • Matte Tin (Sn)
    • NICKEL PALLADIUM GOLD
    • NICKEL PALLADIUM GOLD SILVER
    • TIN
    • TIN COPPER
    • TIN OVER SILVER
    • TIN SILVER COPPER
    • TIN/TIN COPPER
    • Tin (Sn)
    • Tin (Sn) - with Silver (Ag) barrier
    • Tin/Lead (Sn/Pb)
    • Tin/Silver/Copper (Sn/Ag/Cu)
Configuration
    • COMPLEX
    • SINGLE
Size
    • .4 mm
    • 1.01 mm
    • 1.166 mm
    • 1.4 mm
    • 1.5 mm
    • 1.52 mm
    • 1.6 mm
    • 1.65 mm
    • 1.8 mm
    • 10.16 mm
    • 18.795 mm
    • 2 mm
    • 2.2 mm
    • 2.29 mm
    • 2.4 mm
    • 3 mm
    • 4 mm
    • 4.45 mm
    • 5 mm
    • 5.8 mm
    • 8 mm
    • 8.95 mm
No. of Functions
    • 1
Infrared (IR) Range
    • NO
    • YES
Maximum Supply Current
    • .001 mA
    • .014 mA
    • .035 mA
    • .085 mA
    • .09 mA
    • .1 mA
    • .25 mA
    • .29 mA
    • .35 mA
    • .45 mA
    • .59 mA
    • .675 mA
    • .9 mA
    • .95 mA
    • 1.05 mA
    • 1.1 mA
    • 1.2 mA
    • 1.5 mA
    • 1.6 mA
    • 1.7 mA
    • 10 mA
    • 12 mA
    • 15 mA
    • 16 mA
    • 17 mA
    • 2 mA
    • 2.7 mA
    • 20 mA
    • 22.1 mA
    • 23.4 mA
    • 3 mA
    • 3.5 mA
    • 4 mA
    • 5 mA
    • 7 mA
    • 70 mA
    • 8 mA
    • 9 mA
Nominal Hysteresis Ratio
    • .65
    • 1.1
Nominal Supply Voltage
    • 10 V
    • 12 V
    • 15 V
    • 16 V
    • 2.5 V
    • 20 V
    • 3 V
    • 3.3 V
    • 3.9 V
    • 30 V
    • 36 V
    • 4 V
    • 5 V
    • 5.3 V
    • 5.5 V
    • 6 V
    • 6.3 V
    • 7 V
    • 8 V
Packing Method
    • TR
    • TR, 13 INCH
    • TR, 7 INCH
    • TUBE
Sub-Category
    • Photo ICs
Minimum Supply Voltage
    • 1.6 V
    • 1.8 V
    • 2.2 V
    • 2.25 V
    • 2.3 V
    • 2.5 V
    • 2.6 V
    • 2.7 V
    • 3 V
    • 4 V
    • 4.5 V
Terminal Pitch
    • 2.54 mm
Maximum Operating Temperature
    • 100 Cel
    • 125 Cel
    • 60 Cel
    • 65 Cel
    • 70 Cel
    • 75 Cel
    • 80 Cel
    • 85 Cel
    • 95 Cel
Application
    • AIR CONDITIONER
    • AMPLIFIER
    • DATA COMMUNICATION
    • ENCODER
    • GENERAL PURPOSE
    • REMOTE CONTROL
    • SWITCHING
Shape
    • OVAL
    • RECTANGULAR
    • ROUND
    • SQUARE
Minimum Operating Temperature
    • -10 Cel
    • -20 Cel
    • -25 Cel
    • -30 Cel
    • -40 Cel
    • -55 Cel
    • 0 Cel
Additional Features
    • AEC-Q101
    • CMOS COMPATIBLE
    • COMMUNICATES DIRECTLY WITH A MICROCONTROLLER, TTL COMPATIBLE
    • DAY LIGHT FILTER, HIGH SENSITIVITY, OPEN COLLECTOR, TTL COMPATIBLE
    • HIGH IMMUNITY
    • HIGH SENSITIVITY
    • HIGH SENSITIVITY, OPERATING SUPPLY VOLTAGE-MIN= -0.5V
    • HIGH SENSITIVITY, SIDE VIEW
    • OPEN COLLECTOR, HIGH SENSITIVITY, SIDE VIEW
    • OPEN COLLECTOR; SIDE VIEW
    • SIDE VIEW
    • TTL COMPATIBLE
    • TTL COMPATIBLE, CMOS COMPATIBLE
    • TTL COMPATIBLE; SIDE VIEW
    • WITH SIGNAL PROCESSING CIRCUIT, TTL COMPATIBLE, HIGH SENSITIVITY
    • WITH SIGNAL PROCESSING CIRCUIT, VISIBLE LIGHT CUT OFF
JESD-609 Code
    • e0
    • e1
    • e2
    • e3
    • e3/e2
    • e4
Maximum On State Current
    • .00001 A
    • .0001 A
    • .002 A
    • .0025 A
    • .003 A
    • .005 A
    • .01 A
    • .014 A
    • .015 A
    • .016 A
    • .018 A
    • .05 A
    • .1 A
Reset All
Part RoHS Manufacturer Optoelectronic Type Mounting Feature No. of Terminals Terminal Finish Configuration Size No. of Functions Infrared (IR) Range Maximum Supply Current Nominal Hysteresis Ratio Nominal Supply Voltage Packing Method Sub-Category Minimum Supply Voltage Terminal Pitch Maximum Operating Temperature Application Shape Minimum Operating Temperature Additional Features JESD-609 Code Maximum On State Current

ALS-PDIC144-6C/L378

Everlight Electronics

LINEAR OUTPUT PHOTO IC

SINGLE

3 mm

1

NO

1.8 V

85 Cel

GENERAL PURPOSE

ROUND

-40 Cel

ALS-PDIC15-21C/L230/TR8

Everlight Electronics

LINEAR OUTPUT PHOTO IC

SINGLE

2 mm

1

NO

2.5 V

85 Cel

GENERAL PURPOSE

RECTANGULAR

-40 Cel

.005 A

EE-SX3148-P1

Omron

LINEAR OUTPUT PHOTO IC

SINGLE

1

75 Cel

GENERAL PURPOSE

RECTANGULAR

-20 Cel

.016 A

ALS-PDIC243-3B

Everlight Electronics

LINEAR OUTPUT PHOTO IC

THROUGH HOLE MOUNT

.35 mA

3 V

Photo ICs

85 Cel

-40 Cel

OPT101PG4

Texas Instruments

LINEAR OUTPUT PHOTO IC

NICKEL PALLADIUM GOLD

SINGLE

2.29 mm

1

NO

TUBE

2.7 V

2.54 mm

70 Cel

AMPLIFIER

SQUARE

0 Cel

e4

TSOP58438

Vishay Intertechnology

LINEAR OUTPUT PHOTO IC

THROUGH HOLE MOUNT

TIN OVER SILVER

SINGLE

5 mm

1

YES

1.05 mA

5 V

Photo ICs

2.7 V

85 Cel

REMOTE CONTROL

RECTANGULAR

-25 Cel

HIGH IMMUNITY

e3

.005 A

ALS-PDIC17-55C/TR8

Everlight Electronics

LINEAR OUTPUT PHOTO IC

SURFACE MOUNT

SINGLE

1.4 mm

1

NO

.59 mA

3 V

Photo ICs

1.8 V

85 Cel

GENERAL PURPOSE

RECTANGULAR

-40 Cel

TPS850

Toshiba

LINEAR OUTPUT PHOTO IC

SURFACE MOUNT

SINGLE

2.4 mm

1

NO

3 V

Photo ICs

2.2 V

85 Cel

AMPLIFIER

RECTANGULAR

-30 Cel

HIGH SENSITIVITY

.01 A

OPT101P-JG4

Texas Instruments

LINEAR OUTPUT PHOTO IC

NICKEL PALLADIUM GOLD

SINGLE

2.29 mm

1

NO

TUBE

2.7 V

2.54 mm

70 Cel

AMPLIFIER

SQUARE

0 Cel

e4

Photo IC Sensors

Photo IC sensors, also known as photonic IC sensors, are electronic components that use light to detect and measure physical quantities such as temperature, pressure, and distance. These sensors are widely used in a variety of industrial, medical, and consumer applications.

Photo IC sensors are based on the use of integrated circuits that combine photonic and electronic components. These sensors typically consist of a light source, a photodetector, and an electronic circuit that processes the signal generated by the photodetector. The light source can be either an LED or a laser, while the photodetector can be a photodiode, a phototransistor, or a photomultiplier tube.