MP1530DQ

MP1530 Triple Output Step-Up Plus Linear Regulators for TFT Bias The Future of Analog IC Technology DESCRIPTION The MP1530 combines a triple output step-up converter with linear regulators to provide a complete DC/DC solution. It is designed to power TFT LCD panels from a regulated 3.3V or 5V supply. This device integrates a 1.4MHz fixed-frequency step-up converter with positive and negative linear regulators. The step-up converter switch node drives two charge pumps, which supply powers to their respective linear regulators. The positive and negative linear regulator inputs can withstand up to 38V and down to -20V, respectively. A single on/off control enables all 3 outputs. The outputs are internally sequenced at startup for ease of use. An internal soft-start prevents input overload at startup. Cycle-by-cycle current limiting reduces component stress. The MP1530 is available in a tiny 3mm x 3mm, 16-pin QFN package or a 16-pin TSSOP package. FEATURES • • • 2.7 to 5.5V Operating Input Range 2.8A Switch Current Limit 3 Outputs In a Single Package Step-Up Converter up to 22V Positive 20mA Linear Regulator Negative 20mA Linear Regulator 250mΩ Internal Power MOSFET Switch Up to 95% Efficiency 1.4MHz Fixed Frequency Internal Power-On Sequencing Adjustable Soft-Start/Fault Timer Cycle-by-Cycle Over Current Protection Under Voltage Lockout Ready Flag 16-Pin, QFN (3mm x 3mm) or TSSOP Packages TFT LCD Displays Portable DVD Players Tablet PCs Car Navigation Displays • • • • • • • • • APPLICATIONS • • • • EVALUATION BOARD REFERENCE Board Number EV0055 Dimensions 2.4”X x 2.3”Y x 0.4”Z “MPS” and “The Future of Analog IC Technology” are Trademarks of Monolithic Power Systems, Inc. TYPICAL APPLICATION VIN 3.3V/5V Efficiency vs Load Current 100 90 (Step-Up Converter Only) VIN = 5.0V CT RDY IN EFFICIENCY (%) OFF ON TO SW EN COMP SW FB1 VMAIN 80 70 60 50 40 30 20 1 VIN = 3.3V IN2 MP1530 VGL GL FB2 IN3 GH FB3 VGH VMAIN = 13V 10 100 LOAD CURRENT (mA) 1000 REF GND PGND MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 1 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS PACKAGE REFERENCE TOP VIEW PGND 16 SW CT RDY FB1 1 2 3 4 5 COMP 6 IN 7 GND 8 REF IN3 15 GH 14 IN2 13 12 11 10 9 GL EN FB3 FB2 TOP VIEW RDY FB1 COMP IN GND REF FB2 FB3 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 CT SW PGND IN3 GH IN2 GL EN Part Number* MP1530DQ * Package QFN16 (3mm x 3mm) Temperature –40°C to +85°C Part Number** MP1530DM Package TSSOP16 Temperature –40°C to +85°C For Tape & Reel, add suffix –Z (eg. MP1530DQ–Z) For RoHS compliant packaging, add suffix –LF (eg. MP1530DQ–LF–Z) ** For Tape & Reel, add suffix –Z (eg. MP1530DM–Z) For RoHS compliant packaging, add suffix –LF (eg. MP1530DM–LF–Z) ABSOLUTE MAXIMUM RATINGS (1) IN Supply Voltage ..........................–0.3V to +6V SW Voltage ..................................–0.3V to +25V IN2, GL Voltage ...........................+0.3V to –25V IN3, GH Voltage...........................–0.3V to +40V IN2 to IN3 Voltage .......................–0.3V to +60V All Other Pins .................................–0.3V to +6V Junction Temperature ...............................125°C Lead Temperature ....................................260°C Storage Temperature ............. –65°C to +150°C Recommended Operating Conditions (2) Input Voltage .................................. 2.7V to 5.5V Main Output Voltage...........................VIN to 22V IN2, GL Voltage ................................ 0V to –20V IN3, GH Voltage ................................. 0V to 38V Operating Temperature .............–40°C to +85°C Thermal Resistance (3) QFN16 (3mm x 3mm) ............. 60 ...... 12... °C/W TSSOP16 ............................... 90 ...... 30... °C/W Notes: 1) Exceeding these ratings may damage the device. 2) The device is not guaranteed to function outside of its operating conditions. 3) Measured on approximately 1” square of 1 oz copper. θJA θJC MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 2 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS ELECTRICAL CHARACTERISTICS (4) VIN = 5V, TA = +25°C, unless otherwise noted. Parameter Input Voltage Range IN Undervoltage Lockout Threshold IN Undervoltage Lockout Hysteresis IN Shutdown Current IN Quiescent Current EN Input High Voltage EN Input Low Voltage EN Hysteresis EN Input Bias Current Oscillator Switching Frequency Maximum Duty Cycle Soft Start Period Regulator #2 Turn-On/Turn-Off Delay Error Amplifier Error Amplifier Voltage Gain Error Amplifier Transconductance COMP Maximum Output Current FB1, FB3 Regulation Voltage FB2 Regulation Voltage FB1, FB3 Input Bias Current FB2 Input Bias Current Reference (REF) REF Regulation Voltage REF Load Regulation Output Switch (SW) SW On Resistance SW Current Limit SW Leakage Current GL Dropout Voltage (5) GH Dropout Voltage (5) GL Leakage Current GH Leakage Current Thermal Shutdown ILIM VSW = 22V VGL = –10V, IGL = –20mA VGH = 20V, IGH = 20mA VIN2 = –15V, VGL = GND VIN3 = 25V, VGH = GND VEN HIGH Symbol Condition VIN VUVLO IN Rising VEN ≤ 0.3V VEN > 2V, VFB1 = 1.4V EN Rising Min 2.7 2.25 100 0.5 1.3 1.6 0.3 100 1 fSW DM CCT = 10nF CCT = 10nF AvEA GmEA 1.22 –25 VFB1 = VFB3 = 1.25V VFB2 = 0V IREF = 50µA 0µA < IREF < 200µA VIN = 5V VIN = 3V 2.8 1.22 1 85 1.4 90 6 3 6 400 1000 ±100 1.25 0 ±100 ±100 1.25 1 250 400 3.6 0.5 1 1.6 Typ Max 5.5 2.65 Units V V mV µA mA V V mV µA MHz % ms µs ms V/V µA/V µA V mV nA nA V % mΩ mΩ A µA V V µA µA °C 1.28 +25 1.28 1.2 1 0.3 1 1 1 160 Notes: 4) Typical values are guaranteed by design, not production tested. 5) Dropout Voltage is the input to output differential at which the circuit ceases to regulate against further reduction in input voltage. MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 3 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS TYPICAL PERFORMANCE CHARACTERISTICS Circuit of Figure 3, VIN = 5V, VMAIN = 13V, IMAIN = 200mA, VGL = -8.5V, IGL = 10mA, VGH = 27V, IGH = 10mA, TA = +25°C, unless otherwise noted. Efficiency vs Load Current 100 90 (Step-Up Converter Only) 13.005 VIN=5V VIN=3.3V 13.000 12.995 Step-Up Converter Load Regulation EFFICIENCY (%) 80 70 60 50 40 30 1 VMAIN (V) 12.990 12.985 12.980 12.975 VMAIN=7.5V 10 100 LOAD CURRENT (mA) 1000 12.970 12.965 1 10 100 IMAIN (mA) 1000 Negative Linear Regulator Load Regulation -8.465 -8.475 -8.485 -8.495 Positive Linear Regulator Load Regulation 27.05 27.03 27.01 26.99 VGL (V) VGH (V) -8.505 -8.515 -8.525 -8.535 -8.545 -8.555 -8.565 0 10 20 30 IGL (mA) 40 50 26.97 26.95 26.93 26.91 26.89 26.87 26.85 0 10 20 30 IGH (mA) 40 50 Power-On Sequence VEN 5V/div. VMAIN 5V/div. VGL 10V/div. VCT 1V/div. VMAIN 5V/div. VGL 10V/div. VGH 10V/div. Power-On Sequence VGH 10V/div. 10ms/div. 10ms/div. MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 4 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS TYPICAL PERFORMANCE CHARACTERISTICS (continued) Circuit of Figure 3, VIN = 5V, VMAIN = 13V, IMAIN = 200mA, VGL = -8.5V, IGL = 10mA, VGH = 27V, IGH = 10mA, TA = +25°C, unless otherwise noted. Normal Operation IMAIN 200mA/div. VSW 5V/div. VMAIN AC 50mV/div. VMAIN AC 100mV/div. Load Transient on VMAIN IMAIN = 20mA - 200mA Step IINDUCTOR 0.5A/div. 400ns/div. Fault Timer VMAIN Shorted to VIN 1.256 1.254 VMAIN 5V/div. VCT 1V/div. VGL 10V/div. Reference Voltage vs Temperature 1.252 VREF (V) 1.250 1.248 1.246 1.244 1.242 1.240 VGH 20V/div. 2ms/div. 1.238 -50 0 50 100 TEMPERATURE (°C) 150 Oscillator Frequency vs Temperature 1.50 1.47 FREQUENCY (MHz) 1.44 1.41 1.38 1.35 1.32 1.29 1.26 -50 0 50 100 TEMPERATURE (°C) 150 MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 5 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS PIN FUNCTIONS QFN Pin # 1 TSSOP Name Pin # 15 SW Description Step-Up Converter Power Switch Node. Connect an inductor between the input source and SW, and connect a rectifier from SW to the main output to complete the step-up converter. SW is the drain of the internal 250mΩ N-Channel MOSFET switch. Timing Capacitor for Power Supply Soft-Start and Power-On Sequencing. A capacitor from CT to GND controls the soft-start and sequencing turn-on delay periods. See Power-On Sequencing and Start Up Timing Diagram. Regulators Not Ready. During startup RDY will be left high. Once the turn-on sequence is complete, this pin will be pulled low if all FB voltages exceed 80% of their specified thresholds. After all regulators are turned-on, a fault in any regulator that causes the 2 16 CT 3 1 RDY 4 2 5 3 6 7 8 4 5 6 9 7 10 8 11 9 12 10 13 11 14 12 15 13 16 14 respective FB voltage to fall below 80% of its threshold will cause RDY to go high after approximately 15µs. If the fault persists for more than approximately 6ms (for CCT=10nF), the entire chip will shut down. See Fault Sensing and Timer. FB1 Step-Up Converter Feedback Input. FB1 is the inverting input of the internal error amplifier. Connect a resistive voltage divider from the output of the step-up converter to FB1 to set the step-up converter output voltage. COMP Step-Up Converter Compensation Node. COMP is the output of the error amplifier. Connect a series RC network to compensate the regulation control loop of the step-up converter. IN Internal Power Input. IN supplies the power to the MP1530. Bypass IN to PGND with a 10µF or greater capacitor. GND Signal Ground. REF Reference Output. REF is the 1.25V reference voltage output. Bypass REF to GND with a 0.1µF or greater capacitor. Connect REF to the low-side resistor of the negative linear regulator feedback string. FB2 Negative Linear Regulator Feedback Input. Connect the FB2 feedback resistor string between GL and REF to set the negative linear regulator output voltage. FB2 regulation threshold is GND. FB3 Positive Linear Regulator Feedback Input. Connect the FB3 feedback resistor string between GH and GND to set the positive linear regulator output voltage. FB3 regulation threshold is 1.25V. EN On/Off Control Input. Drive EN high to turn on the MP1530, drive EN low to turn it off. For automatic startup, connect EN to IN. Once the MP1530 is turned on, it sequences the outputs on (See Power-On Sequencing). When turned off, all outputs are immediately disabled. GL Negative Linear Regulator Output. GL is the output of the negative linear regulator. GL can supply up to 20mA to the load. Bypass GL to GND with a 1µF or greater, low-ESR, ceramic capacitor. IN2 Negative Linear Regulator Input. IN2 is the input of the negative linear regulator. Drive IN2 with an inverting charge pump powered from SW. IN2 can go as low as -20V. For QFN package IN2 connects to exposed pad. GH Positive Linear Regulator Output. GH is the output of the positive linear regulator. GH can supply as much as 20mA to the load. Bypass GH to GND with a 1µF or greater, lowESR, ceramic capacitor. IN3 Positive Linear Regulator Input. IN3 is the input to the positive linear regulator. Drive IN3 with a doubling, tripling, or quadrupling charge pump from SW. IN3 voltage can go as high as 38V. PGND Power Ground. PGND is the source of the internal 250mΩ N-Channel MOSFET switch. Connect PGND to GND as close to the MP1530 as possible. MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 6 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS BLOCK DIAGRAM IN REFERENCE VREF + GM REF SW PULSE-WIDTH MODULATOR FB1 COMP -- OSCILLATOR 0.8VREF + -0.2VREF + -- SOFT-START FAULT TIMER & SEQUENCING PGND 0.8VREF + -VREF -- EN CT FB2 + -- + FB3 IN3 IN2 GH RDY GL GND Figure 1—Functional Block Diagram MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 7 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS OPERATION The MP1530 is a step-up converter with two integrated linear regulators to power TFT LCD panels. Typically the linear regulators are powered from charge-pumps driven from the switch node (SW). The user can set the positive charge-pump to be a doubler, tripler, or quadrupler to achieve the required linear regulator input voltage for the selected output voltage. Typically the negative charge-pump is configured as a 1x inverter. Step-Up Converter The step-up, fixed-frequency, 1.4MHz converter employs a current-mode control architecture that maximizes loop bandwidth to provide fasttransient responses needed for TFT LCD drivers. High switching frequency allows for smaller inductors and capacitors minimizing board space and thickness. Linear Regulators The positive linear regulator (GH) uses a P-Channel pass element to drop the input voltage down to the regulated output voltage. The feedback of the positive linear regulator is a conventional error amplifier with the regulation threshold at 1.25V. The negative linear regulator (GL) uses a N-Channel pass element to raise the negative input voltage up to the regulated output voltage. The feedback threshold for the negative linear regulator is ground. The resistor string goes from REF (1.25V) to FB2 and from FB2 to GL to set the negative output voltage. The difference between the voltage at IN3 and the voltage at IN2 is limited to 60V abs. max. Fault Sensing and Timer Each of the 3 outputs has an internal comparator that monitors its respective output voltage by measuring the voltage at its respective FB input. When any FB input indicates that the output voltage is below approximately 80% of the correct regulation voltage, the fault timer enables and the RDY pin goes high. The fault timer uses the same CT capacitor as the soft-start sequencer. If any fault persists to the end of the fault timer (One CT cycle is 6ms for a 10nF capacitor), all outputs are disabled. Once the outputs are shut down due to the fault timer, the MP1530 must be re-enabled by either cycling EN or by cycling the input power. If the fault persists for less than the fault timer period, RDY will be pulled low and the part will function as though no fault has occurred. Power-On Sequencing and Soft-Start The MP1530 automatically sequences its outputs at startup. When EN goes from low to high, or if EN is held high and the input voltage IN rises above the under-voltage lockout threshold, the outputs turn on in the following sequence: 1. Step-up Converter 2. Negative Linear Regulator (GL) 3. Positive Linear Regulator (GH) Each output turns on with a soft-start voltage ramp. The soft-start ramp period is set by the timing capacitor connected between CT and GND. A 10nF capacitor at CT sets the soft-start ramp period to 6ms. The timing diagram is shown in Figure 2. After the MP1530 is enabled, the power-on reset spans three periods of the CT ramp. First the step-up converter is powered up with reference to the CT ramp and allowed one period of the CT ramp to settle. Next the negative linear regulator (GL) is soft-started by ramping REF, which coincides with the CT ramp, and also allowed one CT ramp period to settle. MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 8 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS The positive linear regulator (GH) is then softstarted and allowed to settle in one period of CT ramp. Nine periods of the CT ramp have occurred since the chip enabled. If all outputs are in regulation (>80%), the CT will stop ramping and be held at ground. The RDY pin will be pulled down to an active low. If any output remains below regulation ( N × VMAIN Where N is the stage number in which the flying capacitor appears. Step-Up Converter Compensation The MP1530 uses current mode control which unlike voltage mode has only a single pole roll off due to the output filter. The DC gain (AVDC) is equated from the product of current control to output gain (AVCSCONTROL), error amplifier gain (AVEA), and the feedback divider. Av DC = A CSCONTROL × Av EA × A FB1 A CSCONTROL = 4 × A FB1 = Av DC = VFB1 VMAIN VIN ILOAD Where VRIPPLE is the output ripple voltage, ILOAD is the load current, and C2 is the capacitance of the output capacitor of the step-up converter. Selecting the Number of Charge-Pump Stages For highest efficiency, always choose the lowest number of charge-pump stages that meets the output requirement. The number of positive charge-pump stages NPOS is given by: NPOS = VGH − VDROPOUT − VMAIN VMAIN − 2VD 1600 × VIN × VFB1 ILOAD × VMAIN The output filter pole is given in hertz by: fFILTERPOLE = ILOAD π × VMAIN × C2 The output filter zero is given in hertz by: fFILTERZERO = 1 2π × R ESR × C2 Where VD is the forward voltage drop of the charge-pump diode, and VDROPOUT is the dropout margin for the linear regulator. Where RESR is the output capacitor’s equivalent series resistance. MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 11 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS With all boost regulators the right half plane zero (RHPZ) is given in hertz by: ⎛ VIN ⎞ ⎟ × VMAIN ⎜ ⎟ ⎜V ⎝ MAIN ⎠ = 2π × ILOAD × L1 2 For the negative linear regulator: fNEGPOLE1 = 1 2π × R7 R5 × C9 1 2π × R7 × C9 fRHPZ fNEGZERO1 = Error Amplifier Compensation To stabilize the feedback loop dynamics the error amplifier compensation is as follows: fPOLE1 ≈ 1 2π × 10 6 × C3 fPOSPOLE1 and fNEGPOLE1 are necessary to cancel out the zero created by the equivalent series resistance (RLDOESR) of the output capacitor. fLDOZERO = 1 2π × R LDOESR × C LDO f ZERO1 ≈ 1 2π × R3 × C3 Where R3 and C3 are part of the compensation network in Figure 3. A 6.8kΩ and 10nF combination gives about 70° of phase margin and bandwidth of about 35KHz for most load conditions. Linear Regulator Compensation The positive and negative regulators are controlled by a transconductance amplifier and a pass transistor. The DC gain of either LDO is approximately 100dB with a slight dependency on load current. The output capacitor (CLDO) and resistance load (RLOAD) make-up the dominant pole. fLDOPOLE1 = 1 2π × R LOAD × C LDO For the component values shown in Figure 3, a 330pF capacitor provides about 30° of phase margin and a bandwidth of approximately 90KHz on both regulators. Layout Considerations Careful PC board layout is important to minimize ground bounce and noise. First, place the main boost converter inductor, output diode and output capacitor as close to the SW and PGND pins as possible with wide traces. Then place ceramic bypass capacitors near IN, IN2 and IN3 pins to the PGND pin. Keep the charge-pump circuitry close to the IC with wide traces. Place all FB resistive dividers close to their respective FB pins. Separate GND and PGND areas and connect them at one point as close to the IC as possible. Avoid having sensitive traces near the SW node and high current lines. Refer to the MP1530 demo board for an example of proper board layout. The pass transistor’s internal pole is about 100Hz to 300Hz. To compensate for the two pole system and add more phase and gain margin, a capacitor network can be added in parallel with the high-side resistor. For the positive linear regulator: fPOSPOLE1 = 1 2π × R9 R8 × C7 1 2π × R9 × C7 fPOSZERO1 = MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 12 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS TYPICAL APPLICATION CIRCUITS VIN 3.3V/5V C4 10nF CT EN RDY IN SW D1 1N5819 OFF ON VMAIN 13V COMP TO SW C3 10nF D4 IN2 FB1 D2 MP1530 VGL -8.5V GL FB2 IN3 D3 C9 330pF REF GND GH VGH 27V FB3 PGND C7 330pF Figure 3—Triple Output Boost Application Circuit MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 13 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS PACKAGE INFORMATION QFN16 (3mm x 3mm) MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 14 MP1530 – TRIPLE OUTPUT STEP-UP PLUS LINEAR REGULATORS FOR TFT BIAS TSSOP16 NOTICE: The information in this document is subject to change without notice. Please contact MPS for current specifications. Users should warrant and guarantee that third party Intellectual Property rights are not infringed upon when integrating MPS products into any application. MPS will not assume any legal responsibility for any said applications. MP1530 Rev. 1.4 5/19/2006 www.MonolithicPower.com MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited. © 2006 MPS. All Rights Reserved. 15