LDO Regulator John O’Hollaren. StandardQuasi-LDOLDO High Dropout Stability not a problem Medium Dropout Stability a concern Low Dropout Stability is a.

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Operational Amplifiers

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Presentation transcript:

LDO Regulator John O’Hollaren

StandardQuasi-LDOLDO High Dropout Stability not a problem Medium Dropout Stability a concern Low Dropout Stability is a big problem ESR ‘Tunnel of Death’ Linear Regulator Overview

Black Box I/O Diagram LDO Regulator LDO Regulator 10 Volt VDD VIN -10 Volt VSS 1.3 Volt VBIAS GND 5 Volt VOUT GND

System Spec Goals My LDOLinear Technology LT1529 Drop Out1.1 V0.6 V Required Capacitance 1 pF22 μF Pos. Settling Time2 μS150 μS Neg. Settling Time0.1 μS100 μS Quiescent PWR Loss1 mW0.5 mW Area0.15 mm 2 >> 0.15 mm 2 Max. Input (+200 mV) 8 Volts6 Volts Min. Input (-200 mV)12 Volts15 Volts Max Output Current0.5 A3 A

Control System: PID KPKP KPKP Gate Drive Vout H H Vref

Control System: PID

Control System: P

Steady State Output Given 10 Volt Input Easily Produces 5V Output

4V Sine Wave on Input

Step Response

DC Sweep VREF

Loop Gain

Layout Floorplan VIN RAIL GND RAIL VOUT RAIL OP AMP 1 OP AMP 2 Power MOSFET Power MOSFET Common Centroid Precision Resistors Common Centroid Precision Resistors 250 μm 20 μm 200 μm 70 μm 0.47 mm 0.29 mm

Common Centroid Plan Op Amps Inverting Amplifier Differential Amplifier Feedback Divider Common centroid already completed in homework 4 R1: 50 kΩ R2: 1 kΩ Unit Resistor for common centroid: 1 kΩ R1: 10 kΩ R2: 10 kΩ R3: 10 kΩ R4: 10 kΩ Unit Resistor for common centroid: 2.5 kΩ R1: 1 kΩ R2: 1 kΩ Unit Resistor for common centroid: 500 Ω

Thank You