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LX1994 Datasheet(PDF) 11 Page - Microsemi Corporation |
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LX1994 Datasheet(HTML) 11 Page - Microsemi Corporation |
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11 / 13 page  LX1994 PRODUCTION DATA SHEET Microsemi Integrated Products Division 11861 Western Avenue, Garden Grove, CA. 92841, 714-898-8121, Fax: 714-893-2570 Page 11 High Efficiency LED Driver Copyright © 2003 Rev. 1.0d, 2006-02-09 TM ® APPLICATION INFORMATION R3 = 23.2k The level at 100% duty cycle in full darkness is 4mA, which is 20% of the maximum level of 20mA; this implies 80% is attributable to ISCR. Combining this information with the describing equation for AUTO mode gives: () ( ) () () SRC LED(MAX) I × R1×R2×Rp 80%×I ×R5= R1×R2 + R1×Rp + R2×Rp This implies: () ( ) () () R1×R2×Rp 0.8×.02×15 ==2.4k R1×R2 + R1×Rp + R2×Rp 100μA Since the left side is the three resistors in parallel, this can be restated as: -6 11 1 416×10 = + + =G1+G2+Gp R1 R2 Rp The manual mode equation can be reduced to this assuming 100% duty and 20mA LED current (that is 0.3V sense resistor voltage): CC R2×Rp 0.3×R1 0.3×R1 == R2+Rp (10μA×R1)+V -0.3 (10μA×R1)+3.0 This can be restated as: -6 11 10 + =33×10 + R2 Rp R1 or () -6 G2+Gp=33×10 + 10×G1 The auto mode equation can be reduced to this assuming 100% duty , 100µA ISRC current and 20mA LED current (that is 0.3V sense resistor voltage): () () () SRC CC CC R1×Rp 0.3×R2 = R1+Rp (I +10μA)×R2 +V -0.3 0.3×R2 0.3×R2 == (100μ+10μA)×R2 +V -0.3 110μA×R2 +3.0 This can be restated as: -6 11 10 + =367×10 + R1 Rp R2 or ( ) -6 G1+Gp=367×10 + 10×G2 The equations above can be solved for G1, G2 and Gp: -6 G1=34.8×10 -6 G2=4.45×10 -6 Gp=376×10 Knowing Gp we can find -6 1 G4=Gp- =343×10 30k The resistance values are the reciprocal of the conductance’s so: R1 = 28.7k R2 = 225k R4 = 2.91k The value of C1 is selected to give a time constant of ½ second and works into R3 (which is 23.2k). 0.5 C1= 23.2k C1 = 21.5µF The value of C2 works into Rp and the pole should be set at 1/100 of the PWM frequency. 1 C2= 10kHz 6.28× ×2.66k 100 For a 10KHz PWM, C2 = 599nF, and a value of 1µf works well. Circuit of Figure 3: The second light sensor interface is very similar to the first; the choice is a matter of user preference. In the second circuit, an active 325mV clamp is used to clamp the maximum LED current in auto mode. In this circuit, resistor R3 is reduced to extend the operating ambient light range of the light sensor and filter capacitor C1 must therefore be increased. |
Similar Part No. - LX1994_06 |
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Similar Description - LX1994_06 |
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