Light Sensor (AMS1, 3, 4) Photo IC type high sensitive light sensor FEATURES TYPICAL APPLICATIONS 1. Built-in optical filter for spectral response similar to that of the human eye. 2. Photocurrent is proportional to illumination. (linear output) 3. Uses environmentally friendly silicon chips. Through-hole type SMD and Through-hole types 1. Brightness detection for LCD backlight control for LCD devices (LCD TVs, car navigation systems, and mobile PCs). 2. Brightness detection for circuits in residential lighting, lighting for security, and automatic lighting for bicycle. 3. Household applicances (day/night energy savings for air conditioners and electric hot water pots, etc.) 4. Brightness detection for wall clocks (radio clocks). Chip type (2.0 x 1.25 x 0.55 mm) (.079 x .049 x .022 inch) Chip type 1. Brightness detection for LCD backlight control for compact mobile devices (mobile phones and PDAs). 2. Brightness detection for controlling the keypad backlight in mobile phones. RoHS compliant TYPES Type (shape) SMD type Through-hole type Chip type Part No. Photo current Tape and reel package AMS104Y AMS302T AMS402Y 260 A* 20 A* Baggage package -- AMS302 -- Standard packing: Tape and reel package SMD type: Carton: 3,000 pcs.; Case: 3,000 pcs. Tape and reel package Through-hole type: Carton: 2,000 pcs.; Case: 2,000 pcs. Baggage package Through-hole type: Carton: 500 pcs.; Case: 1,000 pcs. Tape and reel package Chip type: Carton: 3,000 pcs.; Case: 3,000 pcs. Notes: *Ev = 100 lx (Ev: Brightness, Fluorescent lamp is used as light source) Tape and reel package is standard packaging style for SMD and chip types. ("Y" and "T" at end of part number indicate packaging type.) RATINGS 1. Absolute maximum ratings (Measuring condition: ambient temperature: 25C 77F) Symbol AMS104/AMS302 AMS402 Reverse voltage Item VR -0.5 to 8 V -0.5 to 6 V -- Photocurrent IL 5 mA 1 mA -- Power dissipation Remarks P 40 mW 6 mW Operating temperature Topr -30 to +85C -22 to +185F -30 to +85C -22 to +185F Non-condensing at low temperatures -- Storage temperature Tstg -40 to +100C -40 to +176F -40 to +100C -40 to +176F Non-condensing at low temperatures Symbol AMS104/AMS302 AMS402 1.5 V 1.5 V 6V 5.5 V 2. Recommended operating condition Item Reverse voltage ASCTB242E 201209-T Minimum Maximum VR Panasonic Corporation Automation Controls Business Unit Remarks -- industrial.panasonic.com/ac/e Light sensors SMD type SENSOR Light Sensor (AMS1, 3, 4) 3. Electrical and optical characteristics (Measuring condition: ambient temperature: 25C 77F) Item Peak sensitivity wavelength Photocurrent 1 Photocurrent 2 IL1 IL2 AMS104/AMS302 580 nm 9.1 A 13 A 16.9 A 182 A 260 A 338 A AMS402 560 nm 0.7 A 1 A 1.3 A 14 A 20 A 26 A Condition -- AMS104/AMS302: VR = 5 V, EV = 5 lx*1 AMS402: VR = 3 V, EV = 5 lx*1 AMS104/AMS302: VR = 5 V, EV = 100 lx*1 AMS402: VR = 3 V, EV = 100 lx*1 Photocurrent 3 Typical IL3 500 A 35 A Dark current Maximum ID 0.3 A 0.05 A AMS104/AMS302: VR = 5 V, EV = 100 lx*2 AMS402: VR = 3 V, EV = 100 lx*2 AMS104/AMS302: VR = 5 V, EV = 0 lx AMS402: VR = 3 V, EV = 0 lx Rise time Typical tr Fall time Typical tf 8.5 ms 8.5 ms 1.2 ms 1.2 ms AMS104/AMS302: VCC = 5.0 V, VO = 2.5 V, RL = 5 k AMS104/AMS302: VCC = 3.0 V, VO = 1.5 V, RL = 5 k Switching time Notes: *1. Fluorescent lamp is used as light source. Ev = Brightness *2. CIE standard illuminant `A' is used as light source. *3. Measuring method for switching time. Cathode White LED IF AMS Anode IF VR AMS104/AMS302: 2.5V AMS402: 1.5V VCC 90% VO 10% RL VO tr tf REFERENCE DATA 1. Power dissipation vs. ambient temperature characteristics 2. Relative sensitivity vs. wavelength characteristics 3. Dark current vs. ambient temperature characteristics Reverse voltage: 3V (AMS402), 5V (AMS104, AMS302) Ambient temperature: 25C 77F Reverse voltage: 3V (AMS402), 5V (AMS104, AMS302) 50 Relative sensitivity 40 35 30 25 20 0.8 0.7 0.6 0.5 0.4 15 0.3 10 0.2 5 0.1 0 0 20 40 60 80 AMS402 AMS104*AMS302 Human spectral 0.9 Ambient temperature, C Light source: Fluorescent lamp Reverse voltage: 3V (AMS402), 5V (AMS104, AMS302) Ambient temperature: 25C 77F 10 10000 Brightness, lx Panasonic Corporation 80 100 Light source: Fluorescent lamp, Brightness: 100 lx Reverse voltage: 3V (AMS402), 5V (AMS104, AMS302) Light source: Fluorescent lamp, Brightness: 100 lx Ambient temperature: 25C 77F 1.2 1.2 1.0 AMS402 AMS104*AMS302 0.8 AMS402 AMS104*AMS302 60 Ambient temperature, C Relative photocurrent 100 1000 40 6. Relative photocurrent vs. reverse voltage characteristics Relative photocurrent 1000 100 AMS402 AMS104*AMS302 0.0001 20 1.4 10 0.01 5. Relative photocurrent vs. ambient temperature characteristics 10000 0.1 1 0.1 Wavelength, nm 4. Photocurrent vs. brightness characteristics 1 1 0.001 0 300 400 500 600 700 800 900 1000 1100 100 Dark current, A Power dissipation, mW 10 1.0 AMS402 AMS104*AMS302 45 Photocurrent, A Light sensors Symbol p -- Minimum Typical Maximum Minimum Typical Maximum 0.6 -40 -20 0 20 40 60 80 100 1.0 0.8 0.6 0.4 AMS402 AMS104*AMS302 0.2 0 0 1 2 Ambient temperature, C Automation Controls Business Unit industrial.panasonic.com/ac/e 3 4 5 6 7 8 Reverse voltage, V ASCTB242E 201209-T Light Sensor (AMS1, 3, 4) 7. Switching time vs. resistive load characteristics Light source: White LED Power voltage: 3V (AMS402), 5V (AMS104, AMS302) Resistive load voltage: 1.5V (AMS402), 2.5V (AMS104, AMS302) Ambient temperature: 25C 77F Switching time, ms 100 10 Light sensors 1 AMS402 tr AMS402 tf AMS104*AMS302 tr AMS104*AMS302 tf 0.1 0.1 1 10 100 1000 Resistive load, k DIMENSIONS (mm inch) The CAD data of the products with a 1. SMD type (0.2) (.008) 4 CAD Data CAD Data 3 mark can be downloaded from: http://industrial.panasonic.com/ac/e Recommended mounting pad (Top view) 0.25 .010 (0.1) (.004) 3.2 .126 2.2 .087 1 0.25 .010 4 1 Amplifier 2 2.0 .079 2 3 12 Anode 34 Cathode 1 Anode: - 2 Anode: - 3 Cathode: + 4 Cathode: + DETECTION AREA 1.0 .039 0.3 .012 0.3 .012 0.8 2.8 .031 .110 0.05 .002 0.6 .024 1.27 .050 Terminal thickness: t=0.125 General Tolerance: 0.1 .004 1.27 .050 2. Through-hole type (0.17) (.007) CAD Data (1.0) (.039) 4.30.2 .169.008 1 Anode: - 2 Cathode: + DETECTION AREA 5.00.2 dia. .197.008 dia. 5.8 dia. .228 dia. Max. 1.5 Max. .059 9.1 .358 1.0 .039 (1.0) (.039) 1 Amplifier 2 Max. 1.0 Max. .039 1 Anode 2 Cathode 1 343 1.339.118 2 (2.5) (.098) 2-0.5 2-.020 ASCTB242E 201209-T Panasonic Corporation (2.54) (.100) General Tolerance: 0.5 .020 Automation Controls Business Unit industrial.panasonic.com/ac/e Light Sensor (AMS1, 3, 4) 3. Chip type (0.30) (.012) 1 CAD Data (0.23) (.009) Recommended mounting pad (Top view) 2 1 Anode 2 Cathode DETECTION AREA 1.25 .049 (0.58) (.023) (0.6) (.024) 1.45 .057 2.0 .079 (1.2) (.047) (2.4) (.094) 0.55 .022 Mark for indicating orientation Light sensors 1 Amplifier 2 1 Anode (-) 2 Cathode (+) (0.6) (.024) (0.17) (.007) 1.2 .047 General Tolerance: 0.1 .004 SAFETY PRECAUTIONS Be sure to obey the following in order to prevent injuries and accidents. * Do not use the sensors under conditions that exceed the range of its specifications. It may cause overheating, smoke, or fire. * Connect terminals correctly by verifying the pin layout with the specifications diagram or other instructions. Erroneous connections may lead to unexpected operating errors, overheating, smoke, or fire. * For an impotant and serious application in terms of safety, add protection circuit or any other protection method. 4) Devices and equipment used in assembly should also be grounded. 5) When packing printed circuit boards and equipment, avoid using high-polymer materials such as foam styrene, plastic, and other materials which carry an electrostatic charge. 6) When storing or transporting sensor, the environment should not be generated static electricity (for instance, the humidity should be between 45 and 60%), and sensor should be protected using conductive packing materials. 3. Just after supplying voltage, please note that current in the sensor will be not constant until internal circuit stability. 4. Storage The sensors are transparent plastic packages. They are sensitive to moisture and come in moisture-proof packages. Observe the following cautions when storing. 1) After the moisture-proof package is unsealed, take the sensors out of storage as soon as possible (within 1 week 30C 86F/60% R.H.). 2) If the devices are to be left in storage for a considerable period after the moisture-proof package has been unsealed, it is recommended to keep them in another moisture-proof bag containing silica gel (within 3 months at the most). 3) Storage under extreme conditions will cause soldering degradation, external appearance defects, and deterioration of the characteristics. The following storage conditions are recommended: * Temperature: 0 to 30C 32 to 86F * Humidity: Less than 60% R.H. (Avoid freezing and condensing) * Atomosphere: No harmful gasses such as sulfurous acid gas, minimal dust. *When mounting with solder, if thermal stress is applied to sensors that have absorbed moisture, the moisture will vaporize, swelling will occur, and the inside of the package will become stressed. This may cause the package surface to blister or crack. Therefore, please take caution and observe the soldering conditions in the following section. CAUTIONS FOR USE 1. Applying stress that exceeds the absolute maximum rating If the voltage or current value for any of the terminals exceeds the absolute maximum rating, internal elements will deteriorate because of the excessive voltage or current. In extreme cases, wiring may melt, or silicon P/N junctions may be destroyed. Therefore the design should ensure that the absolute maximum ratings will never be exceeded, even momentarily. 2. Deterioration and destruction caused by discharge of static electricity This phenomenon is generally called static electricity destruction. Static electricity generated by various factors flows through the terminal and occurs to destroy internal elements. To prevent problems from static electricity, the following precautions and measures should be taken when using your device. 1) Person handling sensor should wear anti-static clothing and should be grounded through protective resistance of 500 k to 1 M. 2) A conductive metal sheet should be placed over the work table. Measuring instruments and jigs should be grounded. 3) When using soldering irons, either use irons with low leakage current, or ground the tip of the soldering iron. (Use of lowvoltage soldering irons is also recommended.) Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e ASCTB242E 201209-T 5. Recommended soldering conditions 1) Recommended condition (1) IR (Infrared reflow) soldering method T3 T2 T1 t1 t2 T1 = 150 to 180C 302 to 356F T2 = 230C 446F T3 = 250C 482F or less t1 = 60 to 120 s or less t2 = 30 s or less (2) Soldering iron method Tip temperature: 350 to 400C 662 to 752F Wattage: 30 to 60 W Soldering time: within 3 s *We don't recommend soldering iron method for chip type. 2) Do not do flow soldering. 1) Recommended condition (1) Double wave soldering method T2 T1 t2 t1 t3 T1 = 120C 248F T2 = 260C 500F or less t1 = 120 s or less t2+t3= 6 s or less (2) Soldering iron method Tip temperature: 350 to 400C 662 to 752F Wattage: 30 to 60 W Soldering time: within 3 s 2) The soldered position on leads should not be closer than 3mm .118inch to the molding resin of this sensor. 6. Notes for mounting 1) Temperature rise in the lead portion is highly dependent on package size. If multiple different packages are mounted on the same board, please check your board beforehand in an actual product, ensuring that the temperature of the solder area of the sensor terminals falls within the temperature conditions of item 5. 2) If the mounting conditions exceed the recommended solder conditions in item 5, resin strength will fall and the mismatching of the heat expansion coefficient of each constituent material will increase markedly, possibly causing cracks in the package, disconnections of bonding wires, and the like. For this reason, please inquire with us about whether this use is possible. 7. Cleaning solvents compatibility We recommend dip cleaning with an organic solvent for removal of solder flux etc. If you cannot avoid using ultrasonic cleansing, please ensure that the following conditions are met, and check beforehand for defects. * Frequency: 27 to 29 kHz * Ultrasonic power: No greater than 0.25W/cm2 * Cleaning time: No longer than 30 s * Cleanser used: Asahiklin AK-225 * Other: Submerge in solvent in order to prevent the PCB and sensors from being contacted directly by the ultrasonic vibrations. 8. Transportation Extreme vibration during transport will warp the lead or damage the sensor. Handle the outer and inner boxes with care. 9. Avoid using the sensor in environments containing excessive amounts of steam, dust, corrosive gas, or where organic solvents are present. 10. Lead forming and cutting of through-hole type 1) Lead forming must be done at normal temperature before soldering 2) The bent and cut position on leads should not be closer than 3mm .118inch to the base of leads. 3) Lead forming and cutting must be done while fixing the base of leads. 4) Avoid mounting with stress at the base of leads. Note: Applies to unit area ultrasonic power for ultrasonic baths. 11. The following shows the packaging format 1) SMD type tape and reel (mm inch) Type Tape dimensions Dimensions of tape reel 21.00.8 dia. .827.031 dia. Direction of picking Anode side 0.20.05 .008.002 Light sensor NaPiCa SMD type AMS104Y Device mounted on tape 4.00.1 .157.004 2.00.1 .079.004 1.5 +0.1 -0 dia. .059+.004 dia. -0 1.750.1 .069.004 1782 dia. 7.008.079 dia. 2.00.5 .079.020 8.00.2 .315.008 1.50.3 .059.012 3.60.1 .142.004 2.40.1 .094.004 Cathode side 4.00.1 .157.004 1.00.1 dia. .039.004 dia. Panasonic Corporation 600.5 dia. 2.362.020 dia. 3.50.1 .138.004 Note) When picked from 1 and 4-pin side (Please inquire for tape and reel packaging with 2-pin and 3-pin on the pull-out side.) ASCTB242E 201209-T 11.41.0 .449.039 Automation Controls Business Unit 13.00.5 dia. .512.020 dia. 9.00.3 .354.012 industrial.panasonic.com/ac/e Light sensors Light Sensor (AMS1, 3, 4) Light Sensor (AMS1, 3, 4) 2) Through-hole type tape and reel (mm inch) Type Tape dimensions Symbol Anode side Cathode side P p h Feed hole pitch P0 Product interval pitch P Product distance P2 Product bottom distance H Lead interval F Product slant h Product tilt p Tape width W Holding tape width W0 Feed hole position W1 Holding tape distance W2 Feed hole diameter D0 W1 W0 W Light sensor NaPiCa Through-hole type AMS302T P0 F D0 Light sensors L H W2 P2 Symbol Note: Zigzag tape style is used. Tape thickness t Defective product cutoff position L Dimensions 12.70.3 .500.012 12.71.0 .500.039 6.351.3 .250.051 20.51.0 .807.039 2.540.5 .100.020 01.0 0.039 01.0 0.039 18.0 +1.0 -0.5 .709 +.039 -.020 13.00.3 .512.012 9.0 +0.75 -0.5 .354 +.030 -.020 0 to 0.5 0 to .020 3.80.2 .150.008 0.50.2 .020.008 Remarks Included holding tape thickness Max.: 11.0 .433 3) Chip type tape and reel (mm inch) Type Tape dimensions Dimensions of tape reel Direction of picking Anode side 0.20.05 .008.002 Light sensor NaPiCa Chip type AMS402Y Device 4.00.1 mounted on tape .157.004 21.00.8 dia. .827.031 dia. 1.5 +0.1 -0 dia. .059+.004 dia. -0 2.00.1 .079.004 1.750.1 .069.004 1782 dia. 7.008.079 dia. 2.00.5 .079.020 8.00.2 .315.008 0.90.3 .035.012 Cathode side 11.41.0 .449.039 2.250.1 .089.004 600.5 dia. 2.362.020 dia. 3.50.1 .138.004 0.1 4.0 .157.004 1.50.1 .059.004 0.1 0.8 dia. .031.004 dia. 13.00.5 dia. .512.020 dia. 9.00.3 .354.012 Light Sensor NaPiCa terminology Term Reverse voltage Photocurrent Power dissipation Symbol VR IL P Operating temperature Topr Storage temperature Peak sensitivity wavelength Dark current Rise time Tstg p ID tr Fall time tf Panasonic Corporation Explanation The applied voltage between the cathode and anode. The current that flows between the cathode and anode when light is applied. The electric power loss that occurs between the cathode and anode. The workable ambient temperature range at which normal operation is possible under the condition of a prescribed allowable loss. The ambient temperature range at which the sensor can be left or stored without applying voltage. The wavelength of light at which sensitivity is at its maximum. The current between the cathode and anode when reverse voltage is applied during darkness. Time required for the output waveform to rise from 10% to 90% when light is applied. Time required for the output waveform to fall from 90% to 10% when light is cut. Automation Controls Business Unit industrial.panasonic.com/ac/e ASCTB242E 201209-T