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| LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET DESCRIPTION KEY FEATURES WWW .Microsemi .C OM The LX1970 is a new technology light sensor with spectral response that emulates the human eye. This device is ideal for monitoring ambient light for brightness control systems in flat panel displays. It has a unique photo diode arrangement (patents pending) with a peak response at 520 nm while sharply attenuating both ultra violet and infrared wavelengths. The photo sensor is a PIN diode array with an accurate, linear, and very repeatable current transfer function. Photo current is multiplied by integrated high gain amplifiers and is made available at two output pins; one a current source and the other a current sink. These currents can easily be converted to voltage by adding a single resistor at either or both outputs. Voltage gain is determined by the resistor value typically in the 10K to 50K range. With accurate internal gain amplifiers, design complexity and cost are greatly reduced. The LX1970 is available in the 8-pin MSOP. Approximate Human Eye Spectral Response Low IR Sensitivity Highly Accurate & Repeatable Output Current vs. Light Voltage Scalable Temperature Stable Integrated High Gain Photo Current Amplifiers Complementary Current Outputs No Optical Filters Needed APPLICATIONS PDA Notebook PC LCD TV Tablet PC Cell phones IMPORTANT: For the most current data, consult MICROSEMI's website: http://www.microsemi.com PRODUCT HIGHLIGHT V DD 4.7uF V DD 50K SNK I V OUT SNK 0.3V T yp LX1970 SRC 4.7uF 50K I G ND 0.3V T YP SRC Am bient Light LX1970 LX1970 PACKAGE ORDER INFO Plastic MSOP TA (C) DU 8-Pin -40 to 85 LX1970IDU Note: Available in Tape & Reel. Append the letter "T" to the part number. (i.e. LX1970IDUT) Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 1 LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET ABSOLUTE MAXIMUM RATINGS VDD ................................................................................................................. -0.3 to 6 VDC SNK/SRC (Output Compliance Voltage)........................................... -0.3 to VDD + 0.3VDC SNK/SRC (Maximum Output Current)................................................... Internally Limited Operating Temperature Range ........................................................................ -40 to +85C Storage Temperature Range.............................................................................-55 to 125C Solder Reflow Peak Temperature (Soldering 10-30 seconds).................................... 240C Notes: Exceeding these ratings could cause damage to the device. All voltages are with respect to Ground. Currents are positive into, negative out of specified terminal. Solder reflow to follow: IPC/JEDEC J-STD-020B 7/02 Sn-Pb Small Body Profile VDD NC NC SRC PACKAGE PIN OUT 1 2 3 4 active area 8 7 6 5 VSS NC NC SNK WWW .Microsemi .C OM DU PACKAGE (Top View) 8 1 1970 xxxx 7 6 2 3 4 THERMAL DATA 5 DU Plastic MSOP 8-Pin 206C/W 39C/W DU PACKAGE (Bottom View) xxxx = Denotes Date Code / Lot Information THERMAL RESISTANCE-JUNCTION TO AMBIENT, JA THERMAL RESISTANCE-JUNCTION TO CASE, JC FUNCTIONAL PIN DESCRIPTION NAME VDD VSS SNK SRC Input Supply Voltage Ground Reference for Power and Signal Output Output Current Sink Output Current Source DESCRIPTION SIMPLIFIED BLOCK DIAGRAM PACKAGE PHOTO V DD PACKAGE DATA PACKAGE DATA SNK SRC V SS Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 2 LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET RECOMMENDED OPERATING CONDITIONS WWW .Microsemi .C OM Parameter Supply Voltage (VDD ) SNK Compliance Voltage Range SRC Compliance Voltage Range SNK/SRC Output Resistor Range Note 1: SRC output will work down to VDD=1.8V Min 2 VSS +0.5 VSS 10 LX1970 Typ Max 5.5 VDD VDD - 0.5 1000 Units V V V K ELECTRICAL CHARACTERISTICS Unless otherwise specified, the following specifications apply over the operating ambient temperature -40C TA 85C, VDD = 2V to 5.5V, RLOAD= 50Kohms, Direct Light Input of 14.6W/cm2 except where otherwise noted. Parameter Supply Voltage Range Input Supply Current Symbol VDD IDD ISRC ISNK Test Conditions Min 2 LX1970 Typ Max 5.5 Units VDC A A A % V V nA nm deg VDD = 3.0V, ISRC = 38A, ISNK= open VDD = 3.0V VDD = 3.0V VDD = 3.0V VDD = 3.0V, @ 95% of nominal output current VDD = 3.0V, @ 95% of nominal output current VDD = 5.5V, No Light 60 30 -30 85 38 -38 0.5 VSS +0.3 VDD - 0.3 10 520 60 110 46 -46 2 VSS +0.5 VDD - 0.5 300 Output Current 3 Output SNK/SRC Current Matching SNK Minimum Compliance Voltage SRC Maximum Compliance Voltage SNK/SRC Output Dark Current Wavelength of Peak Sensitivity Half Reception Angle Supply Voltage Coefficient of Output Current Resolution Limit Due To Random Noise Sensitivity @ 540nm (peak) Sensitivity Change @ 910nm Radiant Sensitive Area 4 IMATCH SNKVMIN SRCVMAX IDARK PS 1/2 PSRR VDD = 2V to 5.5V Minimum usable resolution Irradiance current responsivity Current responsivity change with 2 additional direct light input of 14.6W/cm at 910nm Photodiode area -5 2.2 146 2.6 0 0.369 2 5 %/V nW/cm 2 ELECTRICALS ELECTRICALS A/(W/cm ) 5 % of peak mm 2 2 Note 2: The input irradiance is supplied from a white light-emitting diode (LED) optical source adjusted to impose 14.6W/cm at 555nm on the sensor's surface. Note 3: See Figure 1 Note 4: See Figure 2 Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 3 LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET MEASUREMENT CIRCUIT CONFIGURATIONS VS VDD Current Source LX1970 White LED A ISRC A ISNK LX1970 White LED IR LED 910nm A % SRC Current Sources VDD WWW .Microsemi .C OM Figure 1 - Light Current Measurement Circuit Figure 2 - IR sensitivity Measurement Circuit APPLICATION NOTES LIGHT UNITS In converting from W/cm to Nits it is necessary to define the light source. Nits are units for a measurement of luminance, which is the apparent brightness of an illuminated flat surface. W/cm2 is a measurement of irradiance or the measurement of electromagnetic radiation flux both visible and invisible. The first step in the conversion process is to convert irradiance to illuminance, which essentially involves running the irradiant flux through a photopic filter. In normal ambient a photopic curve is used and in dark ambient a scotopic curve (dark adapted eye) is used. If the light is composed of only one wavelength, a conversion chart will tell the conversion factor to convert W/m2 to lux (lumens/m2). If more than one wavelength is used, the light spectrum of the irradiance must be applied to the photopic filter to determine the resultant illuminance. The most sensitive wavelength for the normal light adapted human eye is 555nm. At 555nm, the conversion factor is 683 Lux = 1W/m2 = 100W/cm2. Therefore 14.6W/cm = 100 lux at 555nm. 2 The next step in the conversion process is to convert illuminance to luminance. The units for illuminance are lux or lumens/m2. The units for luminance are Nits or lumens/m2steradian. Assuming the illuminance falls on a Lambertian surface which has perfect dispersion and total reflection, the conversion from lux to nits is 3.14 lux falling on a Lambertian reflector produces 1 Nit. Therefore 100 Lux will produce 31.4 Nits. If the photo sensor had a truly photopic response, it would produce the same output current for the same number of nits or lux, regardless of the color of the light. However, because the match is not perfect, there is still wavelength dependency particularly at the ends of the visible spectrum. In the case of the LX1970 the peak photo response is at 520nm, however depending on the light source, what the human eye perceives as `white' light may actually be composed of peak wavelengths of light other than 520nm. For instance a typical fluorescent lamp includes dominant light not only near 550nm but also at 404 and 435nm. Incandescent light sources such as standard tungsten lights generate substantial IR radiation out beyond 2000nm. APPLICATIONS APPLICATIONS Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 4 LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET APPLICATION EXAMPLES WWW .Microsemi .C OM The following examples present both fully automatic (no user input) and semi-automatic to fully manual override implementations. These general guidelines are applicable to a wide variety of potential light control applications. The LX1970 can be used to control the brightness input of CCFL inverters (like Microsemi's PanelMatchTM inverter family, or line of controller IC's). Likewise it can interface well with LED drivers like the LX1990 and LX1991 sink LED drivers, or boost drivers like the LX1992 and LX1993. In each specific application it is important to recognize the need to correlate the sink and source current of the LX1970 for the target environment and its ambient light conditions. The mechanical mounting of the sensor, light aperture hole size, use of a light pipe or bezel are critical in determining the response of the LX1970 for a given exposure of light. 3.3V or 5V VDD VSS SNK N/C SRC 3V R1 R2 The output node will actually reach 1.25V when the source current from the LX1970 is only about 44A since about 6A of current will be contributed from R1. This assumes a high impedance input to the LED driver. In Figure 3 user adjustable bias control has been added to allow control over the minimum and maximum output voltage. This allows the user to adjust the output brightness to personal preference over a limited range. The PWM input source could of course be replaced with an equivalent DC voltage. 3.3V or 5V VDD VSS SNK N/C To inverter brightness input or LED driver 10F controller input. SRC 3.3V PW M R1 40K R2 25K To inverter brightness input or LED driver controller. C1 10F Figure 3 Figure 4 shows how a fully manual override can be quickly added to the example in figure 3. In addition to the gate to turn on and off the LX1970, a diode has been inserted to isolate the LX1970 when it is shut down. Diable control CMO S Gate VDD VSS SNK N/C SRC Figure 2 The example in figure 2 shows a fully automatic dimming solution with no user interaction. Choose R1 and R2 values for any desired minimum brightness and slope. Choose C1 to adjust response time and filter 50/60 Hz room lighting. As an example, let's say you wish to generate an output voltage from 0.25V to 1.25V to drive the input of an LED driver controller. The 0.25V represents the minimum LED brightness and 1.25V represents the maximum. The first step would be to determine the ratio of R1 and R2. 3.0V - 1 = 11 x R2 0.25V Next the value of R2 can be calculated based on the maximum output source current coming from the LX1970 under the application's maximum light exposure, lets say this has been determined to be about 50A . Thus R2 can be calculated first order as follows: 1.25V R2 = = 25K R1 = 11 x R2 = 275K 50A R1 = R2 3.3V 60K PW M 30K 10F 30K To inverter brightness input or LED driver controller. APPLICATIONS APPLICATIONS Figure 4 The preceding examples represent just a few of the many ways the sensor can be used. For example since there is also a complimentary sink output a resistor from VDD to SNK could develop a voltage that could be compared (with some hysteresis) to a fixed reference voltage and develop a logic shutdown signal. If the application is utilizing a transflective or reflective LCD display such a signal could disable the backlight or front light to the display when reaching sufficient ambient light. Page 5 Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET RESPONSE VS WAVELENGTH 16 14 12 10 8 6 4 2 0 0 ISNK STEP RESPONSE WWW .Microsemi .C OM Amplitude (W/cm ) 2 0.5 Time (Seconds) 1 Load = 10k and 1F Photo Step = Direct Light Input of 14.6W/cm2 SMALL SIGNAL FREQUENCY RESPONSE DARK CURRENT VS TEMP Dark Current (nA) 5 Amplitude (dB) -5 -15 -25 -35 -45 10 100 1000 0.73W/cm2 2.63W/cm2 13.14W/cm2 1000 100 10 1 0.1 0.01 25 40 VDD=5.5V VDD=1.8V 10000 100000 Frequency (Hz) VDD = 3.0V, SNK , Three Light Levels, No Filtering Temperature (C) 55 70 85 SNK OUTPUT PSRR 20.00 0.00 Amplitude (dB) -20.00 -40.00 -60.00 -80.00 -100.00 -120.00 1 10 100 1000 10000 100000 GAIN VS TEMP 2.63W/cm2 13.14W/cm2 Gain/Gain(25C) 1.15 1.1 1.05 1 0.95 0.9 0.85 0.8 -50 0 y = 1.35E-03x + 9.64E-01 CHARTS CHARTS 50 100 Frequency (Hz) VDD = 3.0V Load = 10k and 1F to Ground Temperature (C) VDD = 3.0V Direct Light Input of 13.14W/cm2 Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 6 LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET VERTICAL DIRECTION RESPONSE HORIZONTAL DIRECTION RESPONSE WWW .Microsemi .C OM 1 1 SNK COMPLIANCE VS CURRENT SRC COMPLIANCE VS CURRENT 140 Output Current (A) Output Current (A) 140 120 100 80 60 40 20 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 SNK com pliance Voltage (V) VDD = 3.0V 120 100 80 60 40 20 0 Source Com pliance Voltage (VDD-SRC) VDD = 3.0V SRC CURRENT VS LIGHT (LUX) 500 SRC Current (A) 400 300 200 100 0 0 100 cool w hite Incandescent CHARTS CHARTS 200 300 400 500 Light Input (LUX) VDD = 5.0V; SRC = 10K & 4.7F to GND Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 7 M M LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET PACKAGE DIMENSIONS WWW .Microsemi .C OM DU 8-Pin Miniature Shrink Outline Package (MSOP) A Dim A B C D G H J K L M N P B H G P C N D L K M MILLIMETERS MIN MAX 2.85 3.05 2.90 3.10 - 1.10 0.25 0.40 0.65 BSC 0.38 0.64 0.13 0.18 0.95 BSC 0.40 0.70 3 0.05 0.15 4.75 5.05 INCHES MIN MAX .112 .120 .114 .122 - 0.043 0.009 0.160 0.025 BSC 0.015 0.025 0.005 0.007 0.037 BSC 0.016 0.027 3 0.002 0.006 0.187 0.198 a Active Area Required Minimum Light footprint Bonding / Wafer area Active Area Dim A a B C P1 MILLIMETERS 1.22 0.85 0.60 0.60 2.5 INCHES 0.048 0.033 0.024 0.024 0.98 A C B C L Examination of Active Area Recommended light footprint pattern P1 Note: P1 represents a possible light footprint and its dimensions are not subject to strict tolerances. Only the active area of the device is required to be covered with light. This larger footprint is designed to ensure coverage of the device's active area. M MECHANICALS Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 8 LX1970 INTEGRATED PRODUCTS Visible Light Sensor PRODUCTION DATA SHEET NOTES WWW .Microsemi .C OM N NOTES PRODUCTION DATA - Information contained in this document is proprietary to Microsemi and is current as of publication date. This document may not be modified in any way without the express written consent of Microsemi. Product processing does not necessarily include testing of all parameters. Microsemi reserves the right to change the configuration and performance of the product and to discontinue product at any time. Copyright 2002 Rev. 1.1, 2003-05-30 Microsemi Integrated Products 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 9 |
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