TSL230ARP

t TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS t TAOS048 – OCTOBER 2002 D High-Resolution Conversion of Light D D D D D D D Intensity to Frequency With No External Components Programmable Sensitivity and Full-Scale Output Frequency Communicates Directly With a Microcontroller Single-Supply Operation Down to 2.7 V, With Power-Down Feature Absolute Output Frequency Tolerance of ±5% (TSL230BR) Nonlinearity Error Typically 0.2% at 100 kHz Stable 150 ppm/°C Temperature Coefficient Replacements for TSL230, TSL230A, and TSL230B PACKAGE P 8-LEAD PDIP (TOP VIEW) S0 S1 OE GND 8 2 3 4 7 6 5 S3 S2 OUT VDD Description The TSL230R, TSL230AR, and TSL230BR programmable light-to-frequency converters combine a configurable silicon photodiode and a current-to-frequency converter on single monolithic CMOS integrated circuits. The output can be either a pulse train or a square wave (50% duty cycle) with frequency directly proportional to light intensity. Device sensitivity is selectable in three ranges, providing two decades of adjustment. The full-scale output frequency can be scaled by one of four preset values. All inputs and the output are TTL compatible, allowing direct two-way communication with a microcontroller for programming and output interface. An output enable (OE) is provided that places the output in the high-impedance state for multiple-unit sharing of a microcontroller input line. The devices are available with absolute-output-frequency tolerances of ±5% (TSL230BR), ±10% (TSL230AR), or ±20% (TSL230R). They have been temperature compensated for the ultraviolet-to-visible light range of 320 nm to 700 nm and respond over the light range of 320 nm to 1050 nm. The devices are characterized over the temperature range of –25°C to 70°C. Functional Block Diagram Output Light Photodiode Array Current-to-Frequency Converter OE S0 S1 S2 S3 The LUMENOLOGY r Company t Copyright E 2002, TAOS Inc. Texas Advanced Optoelectronic Solutions Inc. 800 Jupiter Road, Suite 205 S Plano, TX 75074 S (972) 673-0759 t www.taosinc.com 1 TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS TAOS048 – OCTOBER 2002 Terminal Functions TERMINAL NAME GND OE OUT S0, S1 S2, S3 VDD NO. 4 3 6 1, 2 7, 8 5 I O I I TYPE Ground Enable for fO (active low) Scaled-frequency (fO) output Sensitivity-select inputs fO scaling-select inputs Supply voltage DESCRIPTION Selectable Options S1 L L H H S0 L H L H SENSITIVITY Power down 1× 10× 100× S3 L L H H S2 L H L H fO SCALING (divide-by) 1 2 10 100 Available Options DEVICE TSL230R TSL230AR TSL230BR TA –25°C to 85° –25°C to 85° –25°C to 85° PACKAGE – LEADS PDIP–8 PDIP–8 PDIP–8 PACKAGE DESIGNATOR P P P ORDERING NUMBER TSL230RP TSL230ARP TSL230BRP Absolute Maximum Ratings over operating free-air temperature range (unless otherwise noted)† Supply voltage, VDD (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 V Input voltage range, all inputs, VI . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –0.3 V to VDD + 0.3 V Operating free-air temperature range, TA . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –25°C to 70°C Storage temperature range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . –25°C to 85°C Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 260°C † Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability. NOTE 1: All voltage values are with respect to GND. Recommended Operating Conditions MIN Supply voltage, VDD High-level input voltage, VIH Low-level input voltage, VIL Operating free-air temperature range, TA VDD = 4.5 V to 5.5 V VDD = 4.5 V to 5.5 V 2.7 2 0 –25 NOM 5 MAX 5.5 VDD 0.8 70 UNIT V V V °C Copyright E 2002, TAOS Inc. t The LUMENOLOGY r Company t 2 www.taosinc.com TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS TAOS048 – OCTOBER 2002 Electrical Characteristics at TA = 25°C, VDD = 5 V (unless otherwise noted) PARAMETER VOH VOL IIH IIL IDD F.S. kSVS † TEST CONDITIONS IOH = –4 mA IOL = 4 mA MIN 4 TYP 4.5 0.25 MAX 0.4 5 5 UNIT V V µA µA mA µA MHz ppm/°C %/V High-level output voltage Low-level output voltage High-level input current Low-level input current Power-on mode Supply current Full-scale frequency† λ ≤ 700 nm VDD = 5 V ±10% Power-down mode 1.1 2 5 ±150 ±0.5 3 12 Temperature coefficient of output frequency Supply voltage sensitivity Full-scale frequency is the maximum operating frequency of the device without saturation. Operating Characteristics at VDD = 5 V, TA = 25°C, Ee = 130 µW/cm2, λp = 640 nm (unless otherwise noted) TSL230R PARAMETER TEST CONDITIONS S0 = S1 = H, S2 = S3 = L S1 = H, S0 = S2 = S3 = L S0 = H, S1 = S2 = S3 = L fO Output frequency S0 = S1 = S2 = H, S3 = L S0 = S1 = S3 = H, S2 = L S0 = S1 = S2 = S3 = H Ee = 0, S0 = S1 = H, S2 = S3 = L Re Responsivity Out ut ulse Output pulse duration Nonlinearity ‡# Recovery from power down Step response to full-scale step input Response time to programming change Response time to output enable (OE) ‡ # TSL230AR MAX 120 12 1.2 60 12 1.2 10 MIN 90 9 0.9 45 9 0.9 TYP 100 10 1 50 10 1 0.4 MAX 110 11 1.1 55 11 1.1 10 MIN 95 9.5 0.95 47.5 9.5 0.95 TSL230BR TYP 100 10 1 50 10 1 0.4 MAX 105 10.5 1.05 52.5 10.5 1.05 10 UNIT kHz kHz kHz kHz kHz kHz Hz kHz/ (µJ/ cm2) 600 1/2fO ±0.1% ±0.2% ±0.5% 100 100 ns s %F.S. %F.S. %F.S. µs MIN 80 8 0.8 40 8 0.8 TYP 100 10 1 50 10 1 0.4 S0 = S1 = H, S2 = S3 = L S2 = S3 = L S2 or S3 = H fO = 0 MHz to 10 kHz fO = 0 MHz to 100 kHz fO = 0 MHz to 1 MHz 125 0.77 600 1/2fO ±0.1% ±0.2% ±0.5% 100 125 0.77 600 1/2fO ±0.1% ±0.2% ±0.5% 125 0.77 tw 1 pulse of new frequency plus 1 µs 2 periods of new principal frequency plus 1 µs§ 50 150 50 150 50 150 ns Nonlinearity is defined as the deviation of fO from a straight line between zero and full scale, expressed as a percent of full scale. Nonlinearity test condition: S0 = S1 = H, S2 = S3 = L. § Principal frequency is the internal oscillator frequency, equivalent to divide-by-1 output selection. The LUMENOLOGY r Company t Copyright E 2002, TAOS Inc. t www.taosinc.com 3 TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS TAOS048 – OCTOBER 2002 TYPICAL CHARACTERISTICS OUTPUT FREQUENCY vs IRRADIANCE 1000 VDD = 5 V λp = 640 nm TA = 25°C S2 = S3 = L S0 = H, S1 = H 1.2 PHOTODIODE SPECTRAL RESPONSIVITY 100 fO – Output Frequency – kHz 1.0 Normalized Responsivity 10 0.8 1 0.6 0.1 S0 = L, S1 = H 0.4 0.01 S0 = H, S1 = L 0.001 0.001 0.01 0.1 0.2 1 10 100 1k 10 k 100 k 1 M 0 300 400 500 600 700 800 900 1000 1100 Ee – Irradiance – µW/cm2 λ – Wavelength – nm Figure 1 Figure 2 TEMPERATURE COEFFICIENT OF OUTPUT FREQUENCY vs WAVELENGTH OF INCIDENT LIGHT 7000 VDD = 5 V 6000 1.2 VDD = 5 V Ee = 0 S0 = S1 = H S2 = S3 = L 1 fO(dark) — Dark Frequency — Hz Temperature Coefficient of Output Frequency — ppm/5C DARK FREQUENCY vs TEMPERATURE 5000 4000 3000 0.8 0.6 0.4 2000 0.2 1000 0 300 0 –25 0 25 50 75 TA – Temperature – °C 400 500 600 700 800 900 1000 λ – Wavelength of Incident Light – nm Figure 3 Figure 4 Copyright E 2002, TAOS Inc. t The LUMENOLOGY r Company t 4 www.taosinc.com TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS TAOS048 – OCTOBER 2002 TYPICAL CHARACTERISTICS OUTPUT FREQUENCY vs SUPPLY VOLTAGE 1.010 TA = 25°C fO = 100 kHz 1.005 Normalized Output Frequency 1.000 0.995 0.990 0.985 0.980 2.5 3 3.5 4 4.5 5 5.5 VDD – Supply Voltage – V Figure 5 APPLICATION INFORMATION Power-supply considerations Power-supply lines must be decoupled by a 0.01-µF to 0.1-µF capacitor with short leads placed close to the TSL230 device package. A low-noise power supply is required to minimize jitter on output pulses. Input interface A low-impedance electrical connection between the device OE pin and the device GND pin is required for improved noise immunity. Output interface The output of the device is designed to drive a standard TTL or CMOS logic input over short distances. If lines greater than 12 inches are used on the output, a buffer or line driver is recommended. Sensitivity adjustment Sensitivity is controlled by two logic inputs, S0 and S1. Sensitivity is adjusted using an electronic iris technique — effectively an aperture control — to change the response of the device to a given amount of light. The sensitivity can be set to one of three levels: 1×, 10× or 100×, providing two decades of adjustment. This allows the responsivity of the device to be optimized to a given light level while preserving the full-scale output-frequency range. Changing of sensitivity also changes the effective photodiode area by the same factor. The LUMENOLOGY r Company t Copyright E 2002, TAOS Inc. t www.taosinc.com 5 TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS TAOS048 – OCTOBER 2002 APPLICATION INFORMATION Output-frequency scaling Output-frequency scaling is controlled by two logic inputs, S2 and S3. Scaling is accomplished on chip by internally connecting the pulse-train output of the converter to a series of frequency dividers. Divided outputs available are divide-by 2, 10, 100, and 1 (no division). Divided outputs are 50 percent-duty-cycle square waves while the direct output (divide-by 1) is a fixed-pulse-width pulse train. Because division of the output frequency is accomplished by counting pulses of the principal (divide-by 1) frequency, the final-output period represents an average of n (where n is 2, 10, or 100) periods of the principal frequency. The output-scaling-counter registers are cleared upon the next pulse of the principal frequency after any transition of the S0, S1, S2, S3, or OE lines. The output goes high upon the next subsequent pulse of the principal frequency, beginning a new valid period. This minimizes the time delay between a change on the input lines and the resulting new output period in the divided output modes. In contrast with the sensitivity adjust, use of the divided outputs lowers both the full-scale frequency and the dark frequency by the selected scale factor. The frequency-scaling function allows the output range to be optimized for a variety of measurement techniques. The divide-by-1 or straight-through output can be used with a frequency counter, pulse accumulator, or high-speed timer (period measurement). The divided-down outputs may be used where only a slower frequency counter is available, such as a low-cost microcontroller, or where period measurement techniques are used. The divide-by-10 and divide-by-100 outputs provide lower frequency ranges for high resolution-period measurement. Measuring the frequency The choice of interface and measurement technique depends on the desired resolution and data acquisition rate. For maximum data-acquisition rate, period-measurement techniques are used. Using the divide-by-2 output, data can be collected at a rate of twice the output frequency or one data point every microsecond for full-scale output. Period measurement requires the use of a fast reference clock with available resolution directly related to reference-clock rate. Output scaling can be used to increase the resolution for a given clock rate or to maximize resolution as the light input changes. Period measurement is used to measure rapidly varying light levels or to make a very fast measurement of a constant light source. Maximum resolution and accuracy may be obtained using frequency-measurement, pulse-accumulation, or integration techniques. Frequency measurements provide the added benefit of averaging out random or high-frequency variations (jitter) resulting from noise in the light signal or from noise in the power supply. Resolution is limited mainly by available counter registers and allowable measurement time. Frequency measurement is well suited for slowly varying or constant light levels and for reading average light levels over short periods of time. Integration (the accumulation of pulses over a very long period of time) can be used to measure exposure, the amount of light present in an area over a given time period. Copyright E 2002, TAOS Inc. t The LUMENOLOGY r Company t 6 www.taosinc.com TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS TAOS048 – OCTOBER 2002 MECHANICAL INFORMATION PACKAGE P PLASTIC DUAL-IN-LINE PACKAGE This dual-in-line package consists of an integrated circuit mounted on a lead frame and encapsulated with an electrically nonconductive clear plastic compound. The photodiode area is typically 0.92 mm2 (0.0014 in2) (S0 = S1 = H). Pin Pin Pin Pin Pin Pin Pin Pin 1 2 3 4 5 6 7 8 S0 S1 OE GND VDD OUT S2 S3 0.310 (7,87) 0.290 (7,37) 0.260 (6,60) 0.240 (6,10) 0.075 (1,91) 0.060 (1,52) 10° TYP 0.030 (0,76) D NOM 0.175 (4,45) 0.155 (3,94) 0.430 (10,92) 0.410 (10,41) 0.390 (9,91)‡ 8 5 0.310 (7,87) 0.290 (7,37) (Center of active area coincides C with package L center.) 0.020 (0,51) R NOM 4 Places 8° MAX TYP 0.053 (1,35) 0.043 (1,09) 1 0.060 (1,52) 0.040 (1,02) 8 Places 4 Seating Plane 0.020 (0,51) R MAX 4 Places 105° 90° 8 Places 0.012 (0,30) 0.008 (0,20) 0.016 (0,41) 0.014 (0,36) 0.067 (1,70) 0.053 (1,35) 0.150 (3,81) 0.125 (3,18) 0.025 (0,64) 0.015 (0,38) 0.100 (2,54) T.P.† † ‡ True position when unit is installed Minimum flat-optical-surface length NOTES: A. All linear dimensions are in inches and parenthetically in millimeters. B. Index of refraction of clear plastic is 1.55. C. This drawing is subject to change without notice. Figure 6. P — Plastic Dual-In-Line Packaging Configuration The LUMENOLOGY r Company t Copyright E 2002, TAOS Inc. t www.taosinc.com 7 TSL230R, TSL230AR, TSL230BR PROGRAMMABLE LIGHT TO FREQUENCY CONVERTERS TAOS048 – OCTOBER 2002 PRODUCTION DATA — information in this document is current at publication date. Products conform to specifications in accordance with the terms of Texas Advanced Optoelectronic Solutions, Inc. standard warranty. Production processing does not necessarily include testing of all parameters. NOTICE Texas Advanced Optoelectronic Solutions, Inc. (TAOS) reserves the right to make changes to the products contained in this document to improve performance or for any other purpose, or to discontinue them without notice. Customers are advised to contact TAOS to obtain the latest product information before placing orders or designing TAOS products into systems. TAOS assumes no responsibility for the use of any products or circuits described in this document or customer product design, conveys no license, either expressed or implied, under any patent or other right, and makes no representation that the circuits are free of patent infringement. TAOS further makes no claim as to the suitability of its products for any particular purpose, nor does TAOS assume any liability arising out of the use of any product or circuit, and specifically disclaims any and all liability, including without limitation consequential or incidental damages. TEXAS ADVANCED OPTOELECTRONIC SOLUTIONS, INC. PRODUCTS ARE NOT DESIGNED OR INTENDED FOR USE IN CRITICAL APPLICATIONS IN WHICH THE FAILURE OR MALFUNCTION OF THE TAOS PRODUCT MAY RESULT IN PERSONAL INJURY OR DEATH. USE OF TAOS PRODUCTS IN LIFE SUPPORT SYSTEMS IS EXPRESSLY UNAUTHORIZED AND ANY SUCH USE BY A CUSTOMER IS COMPLETELY AT THE CUSTOMER’S RISK. LUMENOLOGY is a registered trademark, and TAOS, the TAOS logo, and Texas Advanced Optoelectronic Solutions are trademarks of Texas Advanced Optoelectronic Solutions Incorporated. Copyright E 2002, TAOS Inc. t The LUMENOLOGY r Company t 8 www.taosinc.com