Ordering number : ENA1833D LV5682P Bi-CMOS LSI Multi-Power Supply System IC LV5682P Specifications Absolute Maximum Ratings at Ta = 25C Parameter Conditions Conditions Ratings Unit Supply voltage V max 36 V CC Allowable Power dissipation Pd max Independent IC Ta 25C 2.7W With an infinity heat sink 65 W Peak supply voltage V peak Each output is a no load. 50 V CC See below for the waveform applied. Junction temperature Tj max 150 C Operating ambient temperature Topr -40 to +85 C Storage temperature Tstg -55 to +150 C Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability. Allowable Operating range at Ta = 25C Parameter Conditions Ratings Unit Operating supply voltage 1 V output, SW output and ACC output total current 0.5A 7.5 to 30 V DD V output, SW output and ACC output total current 0.4A 7.5 to 32 V DD Operating supply voltage 2 ILM output at 10V 12 to 32 V ILM output at 8V 10 to 32 V Operating supply voltage 3 Audio output at 9V 10 to 32 V Operating supply voltage 4 CD output (CD output current 1.3A) 10.5 to 24 V CD output (CD output current 0.7A) 10 to 32 V * The area of safe operation of each output is shown in P13-15. Please perform a set design based on an area of safe operation. Electrical Characteristics at V = 24V, Ta = 25C (*1) CC Ratings Parameter Symbol Conditions Unit min typ max Current drain I V no load, CTRL1/2 = L/L, ACC = 0V 400 800 A CC DD CTRL1 Input Low input voltage V1 0 0.5 V IL M1 input voltage V1 0.8 1.1 1.4 V IM1 M2 input voltage V1 1.9 2.2 2.5 V IM2 High input voltage V1 2.9 3.3 5.5 V IH Input impedance R1 350 500 650 k IH CTRL2 Input Low input voltage V2 0 0.5 V IL M input voltage V2 1.1 1.65 2.1 V IM High input voltage V2 2.5 3.3 5.5 V IH Input impedance R2 350 500 650 k IH V 5V Output *2 The V 5V output supplies the output currents of SW 5V and ACC 5V. DD DD Output voltage 1 V1 I 1 = 200mA, I 7, I 8 = 0A 4.75 5.0 5.25 V O O O O Output voltage 2 V 1 I 1 = 200mA, I 7 = 200mA, I 8 = 100mA 4.75 5.0 5.25 V O O O O Output total current Ito1 V 1 4.75V, Ito1 = I 1+I 7+I8 500 mA O O O O Line regulation V 1 22V V 32V, I 1 = 200mA *3 30 90 mV OLN CC O Load regulation V 1 1mA I 1 200mA *3 70 150 mV OLD O Dropout voltage 1 V 1 I 1 = 200mA *3 1.0 1.5 V DROP O Dropout voltage 2 V 1 I 1 = 100mA *3 0.7 1.05 V DROP O Dropout voltage 3 V 1 I 1+I 7+I 8 = 500mA 2.5 3.75 V DROP O O O Ripple rejection R 1 f = 120Hz, I 1 = 200mA *3 40 50 dB REJ O *1: All the specifications are provided for by the test by the fact that Tj(=25C) is almost equal. To suppress the rise of Tj in the joint part temperature as much as possible, it tests by the pulse loading. *2 : The V 5V output also supplies the output currents of SW 5V and ACC 5V. Therefore, the current supply capability of the V 5V output and its other DD DD electrical characteristics are affected by the output statuses of SW 5V and ACC 5V. *3 : SW 5V and ACC 5V are not subject to a load. Continued on next page. No.A1833-2/15