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| APDS-9004 Miniature Surface-Mount Ambient Light Photo Sensor Data Sheet Description The APDS-9004 is a low cost analog-output ambient light photo sensor in miniature chipLED lead-free, reverse surface mount package. It consists of a photo sensor, whose spectral response is close to CIE standard photopic observer. Hence, it provides an excellent responsivity that is close to the response of human eyes, as shown in Figure 2. It is suitable for portable applications with its ultra small package design. The APDS-9004 is ideal for applications in which the measurement of ambient light is used to control display backlighting. Mobile appliances such as the mobile phones and PDAs that draw heavy current from display backlighting will benefit from incorporating these photo sensor products in their designs by reducing power consumption significantly. Features * Spectral responsivity close to that of human eye * ChipLED Reverse surface-mount package Height - 1.10mm Width - 3.20mm Depth - 1.60mm * Good output linearity across wide illumination range * Low sensitivity variation across various light sources * Operating temperature -40C to 85C * Vcc supply 2.4 to 5.5V * Lead-free package, RoHS compliance. Applications * Detection of ambient light to control display backlighting - Mobile devices - Mobile phones, PDAs - Computing devices - Notebooks, Webpads - Consumer devices - TVs, Video Cameras, Digital Still Cameras * Automatic Residential and Commercial Lighting Management * Electronic Signs and Signals CAUTION: It is advised that normal static precautions be taken in handling and assembly of this component to prevent damage and/or degradation which may be induced by ESD. Application Support Information The Application Engineering Group is available to assist you with the application design associated with APDS9004 ambient light photo sensor module. You can contact them through your local sales representatives for additional details. Ordering Information Part Number APDS-9004-020 Packaging Type Tape and Reel Package 4-pins Chipled package Quantity 2500 Typical Application Circuit Pin 3:V CC Pin 2:V CC APDS-9004 Block Diagram APDS -9004 Pin 1:OUT R LOAD Pin 4:NC Figure 1. Typical application circuit for APDS-9004 Notes : PIN 2 and PIN 3 Vcc need to be externally shorted. Figure 2. Relative Spectral Response Vs. Wavelength Figure 1 Table Component RLOAD Recommended Application Circuit Component 1k ohm Relative Spectral Response Relative Spectral Response Vs. Wavelength Relative Spectral Response Vs Wavelength 1.2 Eye 1 0.8 0.6 0.4 0.2 0 350 APDS-9004 I/O Pins Configuration Table Pin 1 2 3 4 Symbol OUT VCC VCC NC Description OUT VCC VCC No Connect 550 750 Wavelength (nm) 950 1150 2 Absolute Maximum Ratings For implementations where case to ambient thermal resistance is 50 C /W Parameter Storage Temperature Operating Temperature Supply Voltage Symbol TS TA VCC Min. -40 -40 0 Max. 85 85 6.0 Units C C V Recommended Operating Conditions Parameter Supply Voltage Symbol VCC Min. 2.4 Max. 5.5 Units V Electrical & Optical Specifications (Ta=25C) Parameter Output Current (I)[note4] Output Current (II)[note4] Output Current (III)[note4] Dark Current Light Current Ratio Saturation Output Voltage Peak Sensitivity Wavelength Settling Time with pulsed Vcc Tset Symbol I_OUT1 I_OUT2 I_OUT3 I_DARK I_OUT3/ I_OUT2 VO Min. 3 90 2.2 Typ. 19 230 276 1.2 2.32 620 3.5 Max. 31 370 0.5 Units uA uA uA uA V nm ms Vcc pulse = 0V to 3V, Rload=1k, Lux=100 [Note 3] Vcc=3.0V, Lux=100, Rload=1k [Note 3] Vcc=3.0V, Lux=100, Rload=1k [Note 3] Vcc=3.0V, Lux=100, Rload=1k [Note 3] Vcc=3.0V, Lux=100, Rload=1k[Note 3] Vcc=3.0V, Lux=100, Rload=1M Conditions Vcc=3.0V, Lux=10 [Note 2] Vcc=3.0V, Lux=100 [Note 2] Vcc=3.0V, Lux=100 [Note 1] Vcc=5.0V,Lux=0 Propagation Delay time Storage Delay time Rise Time Fall Time Td Ts Tr Tf - 600 200 0.95 0.8 - us us ms ms Note: 1. Illuminance by Incandescent lamp 2. Fluorescent light is used as light source. White LED is substituted in mass production. 3. White LED is used as light source. 4. Other binning options are available. Please contact your Avago Technologies representative for information on current available bins 3 APDS-9004 Performance Charts Average Iout Vs Lux (Vcc=3V,T=25C) 10000 White LED Average Iout(uA) Relative Output Current Vs Temperature (Vcc=3V, 100 Lux) 2.50 2.00 Relative Iout(A) 1000 1.50 1.00 0.50 Relative Iout 0.00 100 10 1 10 100 Lux 1000 -50 -25 0 25 Temp(C) 50 75 100 Relative Output current Vs Vcc ( T=25C, 100 Lux) 1.10 1.08 Relative Iout Relative Iout Vs Angle 1.20 1.00 Relative output current 1.04 1.02 1.00 0.98 0.96 2 2.5 3 3.5 4 Vcc(V) 4.5 5 5.5 6 Relative Iout 1.06 0.80 0.60 0.40 0.20 Relative output current 0.00 -90 -60 -30 0 Angle 30 60 90 4 APDS-9004 Light Measurement Circuit and Waveforms I_pulse Pin 3:V CC Pin 2:V CC I_pulse Pin 1:OUT APDS-9004 VOUT 90% 10% R LOAD Pin 4:NC GND tr td ts tf sensor-output attains ~95% of its voltage magnitude corresponds to the set light level VCC Pulse from PG Sensor Output at load Tset 5 APDS-9004 Package Outline 6 APDS-9004 Tape and Reel Dimensions 7 Moisture Proof Packaging Chart All APDS-9004 options are shipped in moisture proof package. Once opened, moisture absorption begins. This part is compliant to JEDEC Level 3. Baking conditions If the parts are not stored in dry conditions, they must be baked before reflow to prevent damage to the parts. Recommended Storage Conditions Storage Temperature Relative Humidity 10C to 30C Below 60% RH Package In Reels In Bulk Temp. 60C 100C Time 48 hours 6 hours Time from Unsealing to Soldering After removal from the bag, the parts should be soldered within seven days if stored at the recommended storage conditions. If times longer than seven days are needed, the parts must be stored in a dry box. Baking should only be done once. 8 Recommended Reflow Profile 255 230 217 200 180 150 120 80 25 0 P1 HEAT UP 50 100 P2 SOLDER PASTE DRY 150 200 P3 SOLDER REFLOW 250 P4 COOL DOWN 300 t-TIME (SECONDS) R1 MAX 260C R3 R4 T - TEMPERATURE (C) R2 60 sec to 90 sec Above 217 C R5 Process Zone Heat Up Solder Paste Dry Solder Reflow Cool Down Time maintained above 217C Peak Temperature Time within 5C of actual Peak Temperature Time 25C to Peak Temperature Symbol P1, R1 P2, R2 P3, R3 P3, R4 P4, R5 T 25C to 150C 150C to 200C 200C to 255C 255C to 200C 200C to 25C > 217C 260C > 255C 25C to 260C Maximum T/ time or Duration 3C/s 100s to 180s 3C/s -6C/s -6C/s 60s to 90s 20s to 40s 8mins The reflow profile is a straight-line representation of a nominal temperature profile for a convective reflow solder process. The temperature profile is divided into four process zones, each with different T/time temperature change rates or duration. The T/time rates or duration are detailed in the above table. The temperatures are measured at the component to printed circuit board connections. In process zone P1, the PC board and APDS-9004 pins are heated to a temperature of 150C to activate the flux in the solder paste. The temperature ramp up rate, R1, is limited to 3C per second to allow for even heating of both the PC board and APDS-9004 pins. Process zone P2 should be of sufficient time duration (100 to 180 seconds) to dry the solder paste. The temperature is raised to a level just below the liquidus point of the solder, usually 200C (392F). Process zone P3 is the solder reflow zone. In zone P3, the temperature is quickly raised above the liquidus point of solder to 255C (491F) for optimum results. The dwell time above the liquidus point of solder should be between 20 and 40 seconds. It usually takes about 20 seconds to assure proper coalescing of the solder balls into liquid solder and the formation of good solder connections. Beyond a dwell time of 40 seconds, the intermetallic growth within the solder connections becomes excessive, resulting in the formation of weak and unreliable connections. The temperature is then rapidly reduced to a point below the solidus temperature of the solder, usually 200C (392F), to allow the solder within the connections to freeze solid. Process zone P4 is the cool down after solder freeze. The cool down rate, R5, from the liquidus point of the solder to 25C (77F) should not exceed 6C per second maximum. This limitation is necessary to allow the PC board and APDS-9004 pins to change dimensions evenly, putting minimal stresses on the APDS-9004. It is recommended to perform reflow soldering no more than twice. 9 Appendix A: SMT Assembly Application Note Solder Pad, Mask and Metal Stencil Aperture Metal Stencil For Solder Paste Printing Land Pattern PCBA Solder Mask Slot Opening for APDS9004 to be exposed on the Reverse Side of the PCBA Figure 1. Stencil and PCBA 1.1 Recommended Land Pattern C L 1.00 Soldering Terminal 0.71 0.945 1.89 Slot Opening for APDS-9004 to be exposed on the Reverse Side of the PCBA 0.50 0.60 2.00 Figure 2. Recommended Land Pattern 0.71 0.60 Unit: mm Tolerance: +/- 0.2 10 1.2 Recommended Metal Solder Stencil Aperture It is recommended that a 0.11 mm (0.004 inches) thick stencil be used for solder paste printing. Aperture opening for shield pad is 0.6mm x 0.71mm. This is to ensure adequate printed solder paste volume and no shorting. Aperture Opening 0.11 1.7 3.31 Figure 3. Solder stencil aperture Unit: mm 1.3 Adjacent Land Keepout and Solder Mask Areas Adjacent land keep-out is the maximum space occupied by the unit relative to the land pattern. There should be no other SMD components within this area. The minimum solder resist strip width required to avoid solder bridging adjacent pads is 0.2 mm. Note: Wet/Liquid Photo-Imageable solder resist/mask is recommended. 2.7 Mounting Center 4.31 Unit: mm 0.2 MIN. Figure 4. Adjacent land keepout and solder mask areas. 11 Appendix B: Optical Window Design for APDS-9004 Optical Window Dimensions To ensure that the performance of the APDS-9004 will not be affected by improper window design, there are some constraints on the dimensions and design of the window. There is a constraint on the minimum size of the window, which is placed in front of the photo light sensor, so that it will not affect the angular response of the APDS-9004. This minimum dimension that is recommended will ensure at least a 35 light reception cone. If a smaller window is required, a light pipe or light guide can be used. A light pipe or light guide is a cylindrical piece of transparent plastic, which makes use of total internal reflection to focus the light. The thickness of the window should be kept as minimum as possible because there is a loss of power in every optical window of about 8% due to reflection (4% on each side) and an additional loss of energy in the plastic material. Figure 5a and 5b illustrate the two types of window that we have recommended which could either be a flat window or a flat window with light pipe. Flat APDS-9004 Figure 5(a). Window Size Determination for Flat Window Figure 5(b). Window Design of Flat Window with Light Guide D1 Top View T WD L D2 D1 Z APDS-9004 Light Receving Area Figure 6. Recommended Window Dimensions 12 Table 1 and Figure 6 below show the recommended dimensions of the window. These dimension values are based on a window thickness of 1.0mm with a refractive index 1.585. WD: D1: T: L: D2: Z: Working Distance between window front panel & APDS-9004 Window Diameter Thickness Length of Light Pipe Light Pipe Diameter Distance between window rear panel and APDS-9004 Table 1: Recommended dimension for optical window WD (T+L+Z) Flat Window Z 1.5 2.0 2.5 3.0 0.5 1.0 1.5 2.0 D1 2.1 2.8 3.5 4.2 Flat Window with Light Guide D1 2.5 L 1.5 ( All dimensions are in mm ) Note : Active area center to coincide with window center (flat or with light guide). The window should be placed directly on top of the photo sensor to achieve better performance and if a flat window with a light pipe is used, dimension D2 should be 1.5mm to optimize the performance of APDS-9004. 2.1 Optical Window Material The material of the window is recommended to be polycarbonate. The surface finish of the plastic should be smooth, without any texture. The recommended plastic material for use as a window is available from Bayer AG and Bayer Antwerp N. V. (Europe), Bayer Corp.(USA) and Bayer Polymers Co., Ltd. (Thailand), as shown in Table 2. Table 2: Recommended Plastic Materials Material number Makrolon LQ2647 Makrolon LQ3147 Makrolon LQ3187 Visible light transmission 87% 87% 85% Refractive index 1.587 1.587 1.587 13 Appendix C: General Application Guide for APDS-9004 The APDS-9004 is a low cost analog-output ambient light photo sensor whose spectral response closely emulates the human eyes. APDS-9004 consists of a phototransistor that enables the photo sensor to produce a high gain photo current to a sufficient level that can be converted to voltage with a standard value of external resistor. APDS-9004 is then easily integrated into systems that use ADC input which is available for sampling of the external source, as shown in figure 7 below. The amount of converted voltage, Vout, is mainly dependant proportionally on the photo current which generated by the brightness of the light shone on the photo sensor and the load resistor used, RL. Increasing the brightness of the light or/and the load resistor will increase the output voltage. Brightness is measured as "LUX" unit, which describes how intense a light source that our eyes perceive. LUX meter is the equipment for "LUX" measurement. Light sources with the same LUX level appear at the same brightness to the human eyes. Vcc 2,3 Light Source APDS-9004 1 Vout A/D 4 C NC RL microcontroller Figure 7. Configuration of APDS-9004 being used directly Selection of the load resistor RL will determine the amount of current-to-voltage conversion in the circuit. Light source e.g. fluorescent light consists of ac noise about 100Hz frequency. A capacitor of 10uF, which acting as a low-pass filter, is recommended to add in parallel with the load resistor to by-pass this ripples. For product information and a complete list of distributors, please go to our web site: www.avagotech.com Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies, Limited in the United States and other countries. Data subject to change. Copyright (c) 2006 Avago Technologies Pte. All rights reserved. AV01-0184EN - September 14, 2006 |
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