MP100L EasyPowerTM Offline Inductor-Less Regulator For Low Power Application DESCRIPTION FEATURES The MP100L is a compact, inductor-less, goodefficiency, off-line regulator. It steps down the AC line voltage to an adjustable DC output. It is a simple solution to provide a bias voltage to ICs in off-line applications. Its integrated smartcontrol system uses AC line power only when necessary, thus minimizing device losses to achieve good efficiency. This device can help system designs meet new standby power specifications. • • • • • • • • • • • The MP100L provides various protections, such as Thermal Shutdown (TSD), VD Over Voltage Protection (OVP), VD Shrot to GND Protection, Over Load Protection (OLP), Short Circuit Protection (SCP). Universal AC Input (85VAC-to-305VAC) Inductor-Less Less than 100mW Standby Power Good EMI Low BOM Cost Smart Control to Maximum Efficiency Adjustable Output Voltage from 1.5V to 15V Good Line and Load Regulation Thermal Shutdown Protection Short-Circuit Protection Provide Power-Good Signal APPLICATIONS • • The MP100L is available in SOIC8E package. Wall Switches and Dimmers AC/DC Power Supply for Wireless System, like ZigBee,Z-Wave Standby Power for General Off-Line Applications • All MPS parts are lead-free and adhere to the RoHS directive. For MPS green status, please visit MPS website under Products, Quality Assurance page. “MPS” and “The Future of Analog IC Technology” are registered trademarks of Monolithic Power Systems, Inc. TYPICAL APPLICATION RF L U1 BD1 RV 8 VIN CX1 R1 1 PG VOUT 4 VOUT 7 NC GND CFB 6 N RUP MP100L VB FB 5 VD 3 C2 RLW GND C1 2 GND GND MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 1 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR ORDERING INFORMATION Part Number* MP100LGN Package SOIC-8 EP Top Marking MP100L * For Tape & Reel, add suffix –Z (e.g. MP100LGN–Z); TOP MARKING MP: MPS prefix: 100L: first four digits of the part number; LLLLLLLL: lot number; MPS: MPS prefix: Y: year code; WW: week code: PACKAGE REFERENCE MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 2 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR ABSOLUTE MAXIMUM RATINGS (1) Thermal Resistance VIN ................................................. -1V to 700V VOUT ........................................... -0.3V to 28 V VB.................................................. -0.3V to 35V FB ................................................. -0.3V to 6.5V PG ................................................. -0.3V to 14V (2) Continuous Power Dissipation (TA = +25°C) SOIC-8 EP .................................................2.5W Junction Temperature .............................. 150°C Lead Temperature ................................... 260°C Storage Temperature ............... -55°C to +150°C SOIC-8 EP………………………..50 Recommended Operating Conditions (3) 50/60HZ AC RMS Voltage ............. 85V to 305V VB...................................................... 8V to 30V Operating Junction Temp. (TJ) . -40°C to +125°C MP100L Rev. 1.0 11/3/2014 (4) θJA θJC 10 °C/W Notes: 1) Exceeding these ratings may damage the device. 2) The maximum allowable power dissipation is a function of the maximum junction temperature TJ (MAX), the junction-toambient thermal resistance θJA, and the ambient temperature TA. The maximum allowable continuous power dissipation at any ambient temperature is calculated by PD (MAX) = (TJ (MAX)-TA)/θJA. Exceeding the maximum allowable power dissipation will cause excessive die temperature, and the regulator will go into thermal shutdown. Internal thermal shutdown circuitry protects the device from permanent damage. 3) The device is not guaranteed to function outside of its operating conditions. 4) Measured on JESD51-7, 4-layer PCB. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 3 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR ELECTRICAL CHARACTERISTICS CVD = 4.7μF/50V, COUT =2.2μF/50V, TJ = -40°C~+125oC, unless otherwise noted. Parameter Symbol Condition Min Typ Max Units VIN Section o TJ=25 C Input Voltage VIN o o TJ=-40 C ~ +125 C Input Supply Current (Quiescent) Input Voltage Threshold (Fast) Input Voltage Slow Threshold Input Voltage Slow Threshold Hysteresis MOSFET ON Resistance IINQC 700 V 650 V VIN = 95V down to 90V & VD=30V, No Load 20 40 μA VINTHF VIN Rising 70 86 95 V VINTHS VIN Rising 31 34 37 V VINTHS-HYS RON IIN=400mA,VB=5V 2.5 V 9.5 Ω Input Current Rise Time IINRISERATE 140 200 μs/Amp Input Current Fall Time VD Section IINFALLRATE 130 180 μs/Amp VD peak voltage limit(OVP) VDPKLMT 19 21 23 V VD Under Voltage Lock Out VDUVLO 6.2 7.0 7.7 V VD Output Enable Threshold VDTHOUT 13.2 15.4 17.5 V Active Bleeder ON VDBLDON 12.2 14.4 16.5 V Active Bleeder ON Hysteresis VDBLDON-HYS Active Bleeder Current VOUT Section IDBLD VOUT Regulated Voltage VOUT Output Current Limit (5) Line Regulation (6) Load Regulation (7) Dropout Voltage Ground Pin Current PSRR (8) 1.3 VD=30V, IOUT=40mA IOUTLMT VDROP IG PSRR VD=15V to 30V, IOUT=100μA VD=30V, IOUT=100μA to 40mA IOUT=40mA IOUT=40mA f=10Hz to 50kHz,VD=20V, CVD=1μF,COUT=4.7μF V 180 270 360 μA 11.5 12 12.5 V 120 220 0.05 0.1 0.75 1.1 320 0.1 0.3 1.05 1.25 mA % % V mA 0.45 0.95 >60 dB FB Section Reference Voltage PG Section Power Good Pull Down Current Power Good Threshold Power Good Hysteresis Power Good Delay MP100L Rev. 1.0 11/3/2014 VFBREF 1.204 IPG 2 VPGTH VPGTH-HYS TPGDELAY 1 180 1.235 1.266 V mA 1.12 85 245 1.24 310 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. V mV µs 4 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR ELECTRICAL CHARACTERISTICS CVD = 4.7μF/50V, COUT =2.2μF/50V, Tj = -40°C~+125oC, unless otherwise noted. Parameter Thermal Shutdown Thermal Shutdown Threshold Thermal Shutdown Threshold Hysteresis Symbol Condition Min Typ Max Units TSD 160 ºC TSD-HYS 20 ºC Notes: 5) 6) 7) 8) Line Regulation = (VOUT@VB=30V,100uA Load – VOUT@VB=15V,100uA Load) /12V*100. Load Regulation = (VOUT@VB=30V,40mA Load – VOUT@VB=30V,100uA Load)/12V*100. The drop out voltage is defined as VD-VOUT. Guarantee by design. MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 5 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR TYPICAL CHARACTERISTICS MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 6 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR TYPICAL PERFORMANCE CHARACTERISTICS Performance waveforms are tested on the evaluation board of the Design Example section. VIN=230VAC, VOUT=12V, IOUT=20mA, CVD=220μF/35V, TA=+25°C, unless otherwise noted. MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 7 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR PIN FUNCTIONS SOIC-8 EP Pin # Name 1 PG 2 GND 3 FB 4 5 VOUT VD 6 7 VB NC Connect with VD directly. Not Connected. 8 VIN Voltage Input Supply. Providing energy when the voltage falls within the charging window. Expose pad MP100L Rev. 1.0 11/3/2014 Description Power Good. Requires an external pull-up resistor because it is an open drain. When VOUT reaches 80% of its normal output voltage, PG goes high after a 245µs delay. Ground. Output Voltage Feedback. Connect to a capacitor to VOUT to improve low dropout stability. Internally voltage divider set the output to be 12V. Connect to the tap of a resistor divider to adjust the output voltage. Output Voltage. Connect a cap from this pin to GND to store energy for the low drop-out stage. Connect to a large copper surface connected to GND to enhance thermal dissipation. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 8 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR BLOCK DIAGRAM Power Management PG Power Good Circuit VIN Charging Window Main Device Active Bleeder GND Thermal Protection VD OVP FB Output Current Limit VOUT Output Current Sense VB Regulator VD Figure 1: Functional Block Diagram MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 9 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR OPERATION MP100L employs a smart inductor-less regulator design (patent pending) to charge the VD capacitor (C1 in Typical Application Section) from the offline AC input, and then to deliver the stored energy to the load with a stable output voltage. When VIN is less than its 34V threshold, VD can be charged up by up to 1A input current. An internal LDO regulates VOUT to 12V and can supply up to 20mA load when VIN is between 85VAC and 305VAC. The proprietary design allows the universal AC input to efficiently power the IC directly. Startup During the startup, the internal switch connected between VIN and VB turns on when the input voltage is within its charging window (typically below 34V), thus gradually charging the VD voltage. The LDO will not resume with a softstart until the VD voltage reaches 15.4V. Internal NMOS Switching The EMI performance of MP100L greatly relates to the turn-on and turn-off speed of internal switch connected between VIN and VB. To pass related emissions standards with only an X-cap connected to the input ports, the MP100L slowly turns off the internal switch when the VIN voltage reaches 34V, and turns the switch off immediately when VIN reaches 86V during the turn-off period. During the turn-on period, when VIN falls to 31.5V, the internal switch turns on slowly. The turn on and turn off slope is130us/A. To avoid mis-triggered of internal switch when there is noise or inductive kick in input voltage, when Vin falls to 31.5V, the internal switch starts to turn on, and there will be 110us blanking to filer the noise of VIN to let the switch on, when VIN rises to 34V, the internal switch starts to turn off, and there is 300us blanking to prevent the switch return on. Active Bleeder Circuit The input voltage may not enter its charging window during normal operation due to parasitic MP100L Rev. 1.0 11/3/2014 capacitance from VIN to GND. An active bleeder circuit is enabled to pull down the VIN voltage whenever the VD voltage falls below 14.4V to guarantee that the output gets enough energy from the input ports. In addition, when the power supply shuts down, the active bleeder circuit discharges the energy stored in the parasitic capacitor to ensure that the circuit can restart easily. VD Over-Voltage Protection The VD capacitor provides energy for the output load. If the voltage of VD exceeds 21V, the internal switch between VIN and VB turns off immediately to prevent the VD voltage from rising too high, which can damage the LDO stage. VD Short-Circuit Protection The output current is limited to 220mA if the output is shorted to ground, which also decreases the VD voltage. When VD drops below 7.0V, LDO turns off. The input voltage then gradually charges VD up to 15.4V to enable the LDO. When LDO turns on, the output current drops the VD voltage to 7.0V again. This process will continue until the output short condition ceases. VOUT Over-Current Protection The VD and VOUT voltages will drop simultaneously if the output current exceeds its normal value. When the VD voltage falls to 7.0V, the second stage LDO shuts down immediately. Then the input voltage charges VD to 15.4V to enable the LDO. Due to the output current limit circuit, the maximum current is typically limited to 220mA. Thermal Shutdown Protection Accurate temperature protection prevents the chip from operating at exceedingly high temperature. When the silicon die temperature exceeds 160°C, the whole chip shuts down. When the temperature falls below its lower threshold of 140°C, the chip is enabled again. www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 10 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR Power-Good The MP100L integrates a power-good circuit to signal that the output meets the controller IC’s requirements. It is an open drain structure and requires a pull-up resistor to VOUT. During start up, the VOUT voltage rises smoothly. When it reaches 80% of its normal value, the power-good signal goes high after a 245µs delay to indicate a normal output. MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 11 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR APPLICATION INFORMATION COMPONENT SELECTION Setting the Output Voltage The output voltage is set to 12V by internal large feedback resistors. Adjust VOUT by choosing appropriate external feedback resistors. The recommended output voltage is between 1.5V and 15V. Defining the upper and lower feedback resistors as RUP and RLW respectively (refer to the picture in Typical Application section): RUP = RLW × ( VOUT − 1) 1.235 For the external resistors to dominate over the internal resistors, select relatively small values of RUP and RLW compared to the internal resistors. However, to minimize the load consumption, avoid very small external resistors. For most applications, choose RLW=10.2kΩ. To accurately set the output voltage, select an RUP that can counter the internal upper-feedback resistor value of 1MΩ. The table below lists typical resistor values for different output voltages: Table 1: Resistors Selecting vs. Output Voltage Setting VOUT(V) 1.5 3.3 5 15 RUP(kΩ) 2.21(1%) 16.9(1%) 30.9(1%) 121(1%) RLW(kΩ) 10.2(1%) 10.2(1%) 10.2(1%) 10.2(1%) capacitor and a large aluminum capacitor in parallel. Output Power Capability The maximum input power to the VD capacitor is limited by the fixed charging window. Considering the LDO power loss, the MP100L has a limited maximum output power. The following factors influence the MP100L’s maximum output power: the input rectifier (full bridge or half-wave); the VD capacitor connected between VD and GND; the output voltage; and the MP100L’s temperature-rise requirement, which is relative to the different application environments. VIN VIN VAC VAC GND GND Full Bridge Rectifier Half-wave Rectifier Figure depicts the relationship between the maximum output power and the VIN voltage when the output voltage is 12V, 5V and 3.3V, respectively. The plots account for full bridge rectifiers, the temperature rise of MP100L is less than 60°C on the test board in 25°C room temperature test in the open frame. SELECTION OF VD CAPACITOR The bypass capacitor on the VD pin needs to be sufficiently large to provide a stable current. Calculate the capacitance (in μF) based on the following equation: CVD = Iload × τs Vripple Where, Iload is the output current (mA); τ s is based on the type of input rectifier—for example, τ s is 20ms for a half-wave rectifier, and 10ms for a full-bridge rectifier, Vripple is the voltage ripple on the VD capacitor—normally the ripple is limited to 2V to 3V. For best results, use a small ceramic MP100L Rev. 1.0 11/3/2014 Figure 2: Output Power vs. Input Voltage Line Transformer MP100L can work well when connected to AC line or programmable AC source. But when using an isolation transformer or a variable transformer as source, because of the high inductance of the www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 12 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR transformer (usually in the mH’s), high voltage spikes occur when MP100L turns off the internal switch connected between VIN and VB, which may damage the IC. An X- capacitor must be installed before the rectifier to guarantee the reliability of the system. EMI To meet the relevant conducted emissions standard, the internal switch connected between VIN and VB is designed to turn on and off slowly. By adopting this method, a small X cap connected between the input ports will pass EMI with enough margins. For general application, 220nF X-capacitor between the input ports is enough to pass EMI, which will make the whole system compact. 1) Minimize the loop area formed by positive output of rectifier, VIN,VB and GND. 2) Ensure all feedback connections are short and direct. Place the feedback resistors and compensation components as close to the chip as possible. 3) Output capacitor should be put close to the output terminal. 4) Connect the exposed pad with GND to a large copper area to improve thermal performance and long-term reliability RF L R4 U1 BD1 RV CX1 8 VIN R5 R6 6 VOUT 4 VOUT C3 VB R1 MP100L N FB 5 Surge R3 1 PG 7 NC GND 3 VD C2 C4 R2 GND C1 2 GND From its working principle, mP100L is working just when VIN falls into its charging window, so when surges happen at this moment, then a lot of energy will be by MP100L due to the slow turn off process. To protect it from damage, a fast turn off threshold (typically it is 86V) of VIN is set specially to shut down the switch connected between VIN and VB quickly. Since there is no bulk capacitor to absorb AC line transients, MOV should be used to protect the IC to survive the transient test. Besides the value of fuse resistor will also affect the surge result, the larger value used, the better to facilitate to pass the surge test, but the more power consumption will be caused, in the meanwhile, the larger value used, the easier to trigger its fast turn off threshold, 20 ohm fuse resistor is recommended in real application. GND Top Layer Besides, the thermal pad must be connected to the GND for better surge performance. PCB Layout Guide PCB layout is very important to achieve good regulation, ripple rejection, transient response and thermal performance. It is highly recommended to duplicate EVB layout for optimum performance. Bottom Layer Figure 2: PCB Layout If change is necessary, please follow these guidelines and take Figure 3 for reference. MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 13 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR Design Example Below is a design example following the application guidelines for the specifications: Table 2: Design Example VIN VOUT IOUT 85V to 265V 12V 20mA The detailed application schematic is shown in Figure 4. The typical performance and circuit waveforms have been shown in the Typical Performance Characteristics section. For more device application, please refer to the related Evaluation Board Datasheets. MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 14 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR TYPICAL APPLICATION CIRCUITS RF 20/1W L R4 NC 85~265VAC RV 275VAC CX1 220nF /275VAC U1 BD1 MB6S 8 VIN R5 NC R3 1 PG 100k VOUT 4 7 NC GND R6 NC 6 VB C3 470pF/50V MP100L N FB 5 C1 220uF/35V VOUT VD GND R1 90.9k 1% C2 3 R2 10.2k 1% 4.7uF/16V C4 12V/20mA 0.1uF/16V 2 GND GND Figure 4: Typical Application MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 15 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR FLOW CHART Start N VIN>34V Y Turn Off Active Bleeder Turn On Active Bleeder Turn On LDO Thermal Monitor Monitor VD Monitor VFB TSD=Logic Hihg Y N VD<7V Y Turn Off LDO MP100L Rev. 1.0 11/3/2014 N Y Y N Fast Turn Off Internal Switch VD>15.4V VD<14.4V Y Y Slowly Turn On Internal Switch N N N VIN>86V Y Slowly Turn Off Internal Switch VD>15.7V N VIN<31.5V Monitor Output Current N VFB>1.12V IOUTLMT=220mA Y PG=Logic High OCP,SCP&OTP is auto restart www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 16 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR SIGNAL EVOLUTION IN THE PRESENCE OF FAULTS Unplug from main input Start up Normal Over current operation occures Over temperature occures VD VDTHOUT VDBLDON VDUVLO LDO ON VOUT Bleeder Switch On Off Fault Flag Normal operation MP100L Rev. 1.0 11/3/2014 Normal operation OCP/SCP Fault Occurs Here Normal operation OTP Fault Occurs Here www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. Normal operation 17 MP100L EASYPOWERTM – OFFLINE INDUCTOR-LESS REGULATOR PACKAGE INFORMATION SOIC8E 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. MP100L Rev. 1.0 11/3/2014 www.MonolithicPower.com MPS Proprietary Information. Patent Protected. Unauthorized Photocopy and Duplication Prohibited. © 2014 MPS. All Rights Reserved. 18