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PTH03060WAZT Datasheet(PDF) 3 Page - Texas Instruments |
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PTH03060WAZT Datasheet(HTML) 3 Page - Texas Instruments |
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3 / 18 page  For technical support and further information visit http://power.ti.com Environmental & Absolute Maximum Ratings (Voltages are with respect to GND) Characteristics Symbols Conditions Min Typ Max Units Track Input Voltage Vtrack –0.3 — Vin + 0.3 V Operating Temperature Range Ta Over Vin Range –40 (i) — 85°C Solder Reflow Temperature Treflow Surface temperature of module body or pins 235 (ii) °C Storage Temperature Ts — –40 — 125°C Mechanical Shock Per Mil-STD-883D, Method 2002.3 —500 —G’s 1 msec, ½ Sine, mounted Mechanical Vibration Mil-STD-883D, Method 2007.2 —20 — G’s 20-2000 Hz Weight — — 3.7 — grams Flammability — Meets UL 94V-O Notes: (i) For operation below 0 °C the external capacitors must bave stable characteristics. use either a low ESR tantalum, Os-Con, or ceramic capacitor. (ii) During reflow of SMD package version do not elevate peak temperature of the module, pins or internal components above the stated maximum. PTH03060W —3.3 V Input 10-A, 3.3-V Input Non-Isolated Step-Down Switching Power Module SLTS215B – MAY 2003 – REVISED DECEMBER 2003 Specifications (Unless otherwise stated, T a =25 °C, Vin =3.3 V, Vo =2 V, Cin =330 µF, Cout =0 µF, and Io =Iomax) PTH03060W Characteristics Symbols Conditions Min Typ Max Units Output Current Io 0.8 V ≤ V o ≤ 2.5 V, 60 °C, 200 LFM airflow 0 — 10 (1) A 25 °C, natural convection 0 — 10 (1) Input Voltage Range Vin Over Io range 2.95 (2) — 3.65V Set-Point Voltage Tolerance Vo tol — — ±2 (3) %Vo Temperature Variation ∆Reg temp –40 °C <Ta < +85 °C — ±0.5 — %Vo Line Regulation ∆Reg line Over Vin range — ±10 — mV Load Regulation ∆Reg load Over Io range — ±12 — mV Total Output Variation ∆Reg tot Includes set-point, line, load, ——±3 (3) %Vo –40 °C ≤ T a ≤ +85 °C Efficiency η Io =7 A RSET = 2.21 kΩ Vo = 2.5 V — 93 — RSET = 4.12 kΩ Vo = 2.0 V — 92 — RSET = 5.49 kΩ Vo = 1.8 V — 91 — % RSET = 8.87 kΩ Vo = 1.5 V — 89 — RSET = 17.4 kΩ Vo = 1.2 V — 87 — RSET = 36.5 kΩ Vo = 1.0 V — 85— Vo Ripple (pk-pk) Vr 20 MHz bandwidth — 25— mVpp Over-Current Threshold Io trip Reset, followed by auto-recovery — 20 — A Transient Response 1 A/µs load step, 50 to 100 % Iomax, Cout =330 µF ttr Recovery Time — 70 — µSec ∆V tr Vo over/undershoot — 100 — mV Margin Up/Down Adjust ∆V o margin — ± 5— % Margin Input Current (pins 9 /10) IIL margin Pin to GND — – 8 (4) —µA Track Input Current (pin 8) IIL track Pin to GND — — –130 (5) µA Track Slew Rate Capability dVtrack/dt Cout ≤ Cout(max) — — 1 V/ms Under-Voltage Lockout UVLO Vin increasing — 2.452.8 V Vin decreasing 2.2 2.40 — Inhibit Control (pin3) Referenced to GND Input High Voltage VIH Vin –0.5— Open (5) V Input Low Voltage VIL –0.2 — 0.6 Input Low Current IIL inhibit Pin to GND — –130 — µA Input Standby Current Iin inh Inhibit (pin 3) to GND, Track (pin 8) open — 10 — mA Switching Frequency ƒs Over Vin and Io ranges 275 300 325kHz External Input Capacitance Cin 330 (6) ——µF External Output Capacitance Cout Capacitance value non-ceramic 0 330 (7) 5,500 (8) µF ceramic 0 — 300 Equiv. series resistance (non-ceramic) 4 (9) ——m Ω Reliability MTBF Per Bellcore TR-332 5.7 — — 106 Hrs 50 % stress, Ta =40 °C, ground benign Notes: (1) See SOA curves or consult factory for appropriate derating. (2) The minimum input voltage is equal to 2.95 V or Vout + 0.5 V, whichever is greater. (3) The set-point voltage tolerance is affected by the tolerance and stability of RSET. The stated limit is unconditionally met if RSET has a tolerance of 1 % with 100 ppm/°C or better temperature stability. (4) A small low-leakage (<100 nA) MOSFET is recommended to control this pin. The open-circuit voltage is less than 1 Vdc. (5) This control pin has an internal pull-up to the input voltage Vin. If it is left open-circuit the module will operate when input power is applied. A small low-leakage (<100 nA) MOSFET is recommended for control. For further information, consult the related application note. (6) A 330 µF input capacitor is required for proper operation. The capacitor must be rated for a minimum of 500 mA rms of ripple current. (7) An external output capacitor is not required for basic operation. Adding 330 µF of distributed capacitance at the load will improve the transient response. (8) This is the calculated maximum. The minimum ESR limitation will often result in a lower value. Consult the application notes for further guidance. (9) This is the typcial ESR for all the electrolytic (non-ceramic) output capacitance. Use 7 m Ω as the minimum when using max-ESR values to calculate. |
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