ADP1047-300-EVALZ

ADP1047 300 Watt Evaluation Kit ADP1047-300-EVALZ PRD 1334 FEATURES Boost PFC topology providing high power factor and low THD Protection features for AC line input and high voltage output High efficiency I2C serial interface to PC Software GUI Programmable digital filters Programmable response to faults Programmable inrush control Accurate AC power metering Digital Calibration and trimming CAUTION This evaluation board uses high voltages whenever it is powered up. The output capacitor has high level of energy stored and it must be discharged before the load is disconnected. Extreme caution must be taken to ensure safety for the user. It is strongly advised to power down the evaluation board when not in use. ADP1047 EVALUATION BOARD OVERVIEW This evaluation board features the ADP1047 in a switching power supply application. With the evaluation board and software, the ADP1047 can be interfaced to any PC running Windows 2000/XP/Vista/NT via the computer's USB port. The software allows control and monitoring of the ADP1047 internal registers. The board is set up for the ADP1047 to act as boost power factor correction circuit with a rated load of 300W from an input voltage ranging from a 85 VRMS to 265 VRMS. EVALUATION SYSTEM CONTENTS The evaluation system package contains the following items: • Application note EVAL-ADP1047 (order code: ADP1047-300-EVALZ) • ADP1047 evaluation board The USB/I2C dongle for serial communication and software CD need to be ordered separately. Rev. 1.3 Reference designs are as supplied “as is” and without warranties of any kind, express, implied, or statutory including, but not limited to, any implied warranty of merchantability or fitness for a particular purpose. No license is granted by implication or otherwise under any patents or other intellectual property by application or use of reference designs. Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Analog Devices reserves the right to change devices or specifications at any time without notice. Trademarks and registered trademarks are the property of their respective owners. Reference designs are not authorized to be used in life support devices or systems. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 Fax: 781.461.3113 ©2009 Analog Devices, Inc. All rights reserved. ADP1047-300-EVALZ PRD 1334 TABLE OF CONTENTS Features ....................................................................................................................................................................................... 1 CAUTION ..................................................................................................................................................................................... 1 TOPOLOGY AND circuit description ............................................................................................................................................ 3 CONNECTORS ............................................................................................................................................................................ 3 SETTING FILES AND EEPROM .............................................................................................................................................. 5 BOARD EVALUATION ................................................................................................................................................................. 6 EQUIPMENT ............................................................................................................................................................................ 6 SETUP ...................................................................................................................................................................................... 7 ADP1047 PROGRAMMING SOFTWARE ................................................................................................................................ 9 APPENDIX I – SCHEMATIC (MAIN BOARD) ............................................................................................................................ 10 APPENDIX II – SCHEMATIC (DAUGHTER CARD) ................................................................................................................... 12 APPENDIX III – LAYOUT (MAIN BOARD) ................................................................................................................................. 13 APPENDIX IV – LAYOUT (DAUGHTER CARD) ........................................................................................................................ 15 APPENDIX VIII – Test WAVEFORMS ........................................................................................................................................ 18 APPENDIX VIII – Test WAVEFORMS ........................................................................................................................................ 18 APPENDIX IX – Power Factor at different line and load ............................................................................................................ 20 APPENDIX X – Power Metering at different line and load .......................................................................................................... 21 APPENDIX X – BILL OF MATERIALS (MAIN BOARD).............................................................................................................. 22 APPENDIX XI – BILL OF MATERIALS (DAUGHTER CARD) .................................................................................................... 25 APPENDIX XII – REGISTER FILE (RevA_IC revised-0408.47R) .............................................................................................. 26 Notes .......................................................................................................................................................................................... 28 DEMO BOARD SPECIFICATIONS Specification VIN MIN TYP MAX Units 85 115 or 230 265 VRMS 300 W 65 ºC VOUT POUT TAMBIENT Efficiency Switching frequency 385 0.0 0 30 V 95 % 97.7 KHz Notes ADP1047-300-EVALZ PRD 1334 TOPOLOGY AND CIRCUIT DESCRIPTION This evaluation board features the ADP1047 in a typical AC/DC switching power supply in a boost power factor correction (PFC) topology. The circuit is designed to provide a rated load of 385V/300W from an AC input voltage source of 85 VRMS to 265 VRMS AC. The ADP1047 provides functions all the functions necessary for active PFC circuit plus accurate AC power metering. It achieves near-unity power factor, low distortion of the input current, the output voltage regulation, over current protection, AC line fault detection and protection, over temperature protection, and power supply shutdown. It also can optimize light load efficiency performance using output voltage adjustment and frequency reduction. Please refer to the appendix for the detailed schematic. The AC input side consists of the input terminals, EMI filter, inrush relay and its control circuit. The D1 is the rectifier bridge for main power transmission. The D4 is used for input voltage sensing. The boost circuit consists boost inductor (L2), boost switch (Q1) and diode (D2). The gate signal for the boost switch comes from the ADP1047 through the ADP3634 gate driver. The ADP1047 (U1, on daughter card) can be powered either via the USB 5V via an ADP3303 LDO (U2, on daughter card) present on the same daughter card, or via the auxiliary power supply on the board. Thermistor (RTD1) is placed close to the MOSFET on the board allowing over temperature protection functionality to be implemented. CONNECTORS The connections to the evaluation board are shown below. Connector Evaluation Board Function J1 AC Input J9, J10 AC Input J4 385V DC Voltage Output J5 Ground Return for 385 V DC Voltage Output J8, J11 I2C Connector J6 Daughter card There is a 4 pin connector for I2C communication. This allows the software to communicate with the evaluation board through the USB port of the PC. Connectors (J8 and J11) are identical and are connected in parallel to each other to allow multiple boards to be connected to the same I2C bus in a daisy chain configuration. ADP1047-300-EVALZ PRD 1334 Pin Evaluation Board Function 1 5V 2 SCL 3 SDA 4 Ground ADP1047-300-EVALZ PRD 1334 SETTING FILES AND EEPROM The ADP1047 communicates with the GUI software using the I2C bus. The register settings (having extension .47r) and the board settings (having extension .47b) are two files that are associated with the ADP1047 software. The register settings file contains information that govern the functionality of the part such as the over voltage and over current limits, softstart timing, PWM settings etc. The ADP1047 stores all its settings in the EEPROM. When the ADP1047 is connected to the USB dongle the LDO powers the I.C. and the GUI downloads the settings from the registers of the ADP1047 so that the state of the part is known. It is possible to save these settings in a file for later use. Older register settings are overwritten when new files are loaded. The EEPROM on the ADP1047 can contain the information about the board, such as current sense resistor, output inductor and capacitor values. This information is also stored in board setup file (extension .47b) and is necessary for the GUI to display the correct information in the „Monitor‟ tab as well as „Filter Settings‟ window. Always make sure that the correct board file has been loaded for the board currently in use. Each ADP1047 chip has trim registers for the temperature, input current and the output voltage and input voltage. These can be configured during production and are not overwritten whenever a new register settings file is loaded. This is done in order to retain the trimming of all the ADCs for that corresponding environmental and circuit condition (component tolerances, thermal drift, etc.). ADP1047-300-EVALZ PRD 1334 BOARD EVALUATION EQUIPMENT • AC Power Supply • Electronic Load • Oscilloscope with differential probes • PC with ADP1047 GUI installed • Precision Digital Multimeters (HP34401or equivalent - 6 digits) for measuring DC current and voltage PS_ON ADP1047-300-EVALZ PRD 1334 SETUP NOTE: DO NOT CONNECT THE USB CABLE TO THE EVALUATION BOARD UNTIL THE SOFTWARE HAS FINISHED INSTALLING 1) Install the ADP1047 software by inserting the installation CD. The software setup will start automatically and a guided process will install the software as well as the USB drivers for communication of the GUI with the IC using the USB dongle. 2) Insert the daughter card in connector J6 as shown in Figure 4. 3) Ensure that the PS_ON switch (SW1 on schematic) is turned to the on position. It is located on the bottom left half of the board (Figure 4). 4) Connect the evaluation board to the USB port on the PC using the “USB to I2C interface” dongle as shown in Figure 1. 5) The software should report that the ADP1047 has been located on the board. Click “Finish” to proceed to the Main Software Interface Window. The serial number reported on the side of the checkbox indicates the USB dongle serial number. The windows also displays the device I2C address. 6) If the software does not detect the part it enters into simulation mode. Ensure that the connector is connected to J8/J11 (on main board) Click on „Scan for ADP1047A now‟ icon (magnifying glass) located on the top right hand corner of the screen. 7) The board setting is store in the IC and this step is optional. Click on the “Load Board Settings” icon (fourth button from the left) and select the ADI default.47b file. This file contains all the board information including values of shunt and voltage dividers. Note: All board setting files have an extension of .47b 8) The IC on the evaluation board comes preprogrammed and this step is optional. The original register configuration is stored in the ADP1047.47r register file. Note: All register files have an extension of .47r. The file can be loaded using the second icon from the left in Figure . ADP1047-300-EVALZ 9) PRD 1334 Connect a resistive or electronic load to the output connections of Vout+ and Vout-. Note that the load should be connected before the input power is supplied to the evaluation board for safety concerns. 10) Connect a 50 or 60 Hz ac power source, which has to be turned off, to ac plug J1 or terminals J9 and J10. 11) Turn on AC power source and increase the input voltage within the range from 85Vrms to 265Vrms. 12) The evaluation board should now up and running, and ready for evaluation. The output should now read about 385 VDC. 13) Click on the „MONITOR‟ tab and then on the Flags and readings icon. This window provides a snapshot of the entire state of the PSU in a single user friendly window. During power up, the ADP1047 is connected to the USB port (5V) and the LDO powers the IC. It takes 20µsec for VCORE (pin 26) to reach an internal voltage of 2.5V. After this, the I.C. downloads the contents of the registers into the EEPROM. After this the softstart ramp begins. After successful startup and in steady state condition, 5 LEDs on the board to provide to the user the status of the board. All the LEDs will be turned ON indicating that there are no faults detected such as over voltage or over current. In case of a fault the PGOOD or AC_OK LEDs will be turned OFF indicating that some flag has tripped due to an out of bounds condition. The monitor window will display the appropriate state of the PSU. LED Location Description D7 Bottom left Inrush signal D8 Bottom right PGOOD signal (active high) D9 Bottom right AC_OK signal (active high) D10 Bottom right Indicates input voltage is present D11 Top right Indicates 12V or USB5V is present ADP1047-300-EVALZ PRD 1334 ADP1047 PROGRAMMING SOFTWARE The goal of this evaluation kit is to allow the user to get an insight into the flexibility offered by the extensive programming options offered by the ADP1047. Several test points on the board allow easy monitoring of the various signals. The user can also use the software to program multiple responses (such as disable power supply or disable the PWM) for various fault conditions. There are several main windows where the user can use to program and evaluate the PSU. They can be accessed from the Setup window in the GUI. The ADP1047 can be easily programmed to modify the behavior of the PSU under different fault and load conditions without any hardware changes. All the changes are purely through software and do not require desoldering components and replacing them with new values to specify a different operating condition 3 2 1 1 1 Vout EGND PWM2 PWM C9 0.1u C20 1n R39 1k R43 140k R40 249k C1 0.47u, 250V F1 5A TP24 TP9 PWM2 PWM REDUNDANT OVP Th OFF=1.28V -> 500V Th ON= 1.0V ->390V R40=390k R39=1k AGND C10 4.7u N J10 AC Plug 3 2 1 J1 P J9 TP1 TP2 AC-IN1 AC-IN1 1 2 3 4 2 TP10 +12 EN# OTW INA OUTB GND VDD INB OUTA 8 5 6 7 2.2mH L1 OTW VCC+12V 2 1 PGND R1 470k, 1W J18 U1 ADP3634 EGND 1 C4 DNP A A C D16 1N4148 (DNP) C ~ R42 10 R41 DNP R8 10 R7 DNP C12 0.1u EGND TP21 Inrush D5 1N4148 (DNP) INRUSH 3 4 C3 DNP 4 - 1 ~1 ~2 2 R37 DNP PGND K1 1 4 2 R27 10k 1 G6RL-1A-DC12 3 R22 25 Ohm Gate_Q1 AC-REC AC-REC_sense Gate_Q2 PGND Q3 2SK3018 PGND C13 22u 1 - TP18 Vin2 TP17 Vin1 D7 LED VAC VCC+12V R23 2k2 AC-REC_sense R14 470k, 1W C2 0.47u, 250V 10 R44 + 3 + TP12 AC_REC_Sense 2 ~ AC-REC J15 J14 2 C8 TP16 DNP PGND TP15 VAC 1 1 2 D1 GBU806 + 4 + TP3 AC-REC+ TP7 AC-REC- ~ ~1 ~2 3 PGND R13 36.5k R12 499k R11 499k AC-REC PGND LED D10 R31 499k ILIM CS+ R21 CS499k 0.33u, 630V C11 L2 500U R10 0 R9 0 R6 0 TP8 CS- R4 80m, 2W Gate_Q1 TP6 Vx TP11 CS+ 1n C16 Gate_Q2 1 Cr DNP R45 DNP Q2 DNP D19 DNP Lr DNP 3 Vout PGND R34 36.5k R33 499k R26 499k TP25 PGND 1 J12 STAR CONNECTION POINT Q1 SPW20N60C3 D3 8EWS08S 2 TP19 TP27 Vout- Vout- R2 10k 1 TP4 Gate 1 3 2 3 D4 MB6S 3 2 2 1 2 3 ~ 1 2 Vout D2 8ETX06 PGND TP20 OVP C15 100pF 2 DNP D18 2 R5 390, 1W 1 OVP C5 68pF TP26 Vout- R20 36.5k R19 499k R18 499k PGND AGND C6 0.33u, 630V TP5 Vout+ TP14 PGND PGND JUMPER J13 TP29 PGND TP28 PGND R15 0 C14 100pF TP13 VBUS C7 330u, 450V Vout PGND R3 470k, 1W 1 1 J4 VFB VOUT- J5 VOUT+ ADP1047-300-EVALZ PRD 1334 APPENDIX I – SCHEMATIC (MAIN BOARD) ADP1047-300-EVALZ PRD 1334 J6 A DP 10 47 _DC VAC NC1 NC2 NC3 INRUS H P GND1 CS CS + P WM P GND2 P WM2 P GND3 ILIM P GND4 P GOOD1 A C_OK S Y NC NC4 12 V /5V P GND5 NC5 P GND6 IB AL P GND7 RT D S DA S CL 3.3 V P S ON A GND V FB OV P P GOOD 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 A C_OK VAC INRUS H RT D CS CS + P WM P WM2 P GOOD A C_OK S Y NC R32 R25 2k2 D8 LE D D9 LE D RT D1 10 0k ILIM V CC+1 2V 2k2 R24 2k2 P GND P GND P GND D11 LE D IB AL T P 30 RT D S DA S CL +3 .3V PSON P GND S W1 1 2 3 C17 10 00 pF V FB OV P J7 1 2 V CC+1 2V 1 2 P GND D13 1N4 14 8 (DNP) R28 10 0 +5 V C J8 A 1 2 3 4 S CL C19 33 pF C18 33 pF D17 1N4 14 8 (DNP) P GND R29 10 0 S DA C22 33 pF +5 V C P GND A J1 1 1 2 3 4 C21 33 pF P GND P GND 1 2 3 4 1 2 3 4 +3 .3V 1 2 3 4 PGND AGND 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 J2 Aardv ark VAC NC1 NC2 NC3 INRUSH PGND1 CSCS+ PWM PGND2 PWM2 PGND3 ILIM PGND4 PGOOD1 PGOOD2 SY NC NC4 12V/5V PGND5 NC5 PGND6 IBAL PGND7 RTD SDA SCL 3.3V PSON AGND VFB OVP J1 ADP1047_DC 5V SCL SDA AGND RTD SDA SCL 3.3V PSON 12V PGOOD AC_OK SY NC PWM2 PWM INRUSH PGND 0 R16 C5 DNI 0 R5 90.9k R13 DNI DNI AGND R6 10k C15 C6 DNI C8 DNI PGND C2 DNI C7 C3 DNI R3 90.9k DNI R7 10k 0.1% R8 10k 0.1% R2 10k DGND PGND DNI R15 10k R14 10k C14 C1 R1 90.9k R4 10k R22 0 PGND PGND 5V 12V C4 1000pF C16 DNI 2 2 D2 1N4148 D1 1N4148 VCORE VFB OVP IBAL CS+ CS- ILIM 5 6 8 7 2 SD ERR IN IN RTD SCL SDA RES PSON PWM PWM2 AC_OK PGOOD INRUSH SY NC ADD GND NR OUT OUT 4 3 1 2 R21 2.2K PGND U2 ADP3303 D6 LED AGND RED AGND + 1 AGND C9 10uF 1 1 C13 0.1uF 12 3 4 7 9 8 6 U1 ADP1047/ADP1048 VAC AGND 2 1 AGND 10 24 VDD PGND 5 C12 0.1uF DGND 3.3V AGND R9 0 3.3V 21 23 11 13 14 15 16 17 18 19 20 22 AGND C10 0.1uF C11 1uF R11 49.9k AGND R12 2.2k PSON PWM PWM2 AC_OK PGOOD INRUSH SY NC SCL SDA RTD R20 DNP R18 2.2K R19 2.2K 3.3V ADP1047-300-EVALZ PRD 1334 APPENDIX II – SCHEMATIC (DAUGHTER CARD) ADP1047-300-EVALZ APPENDIX III – LAYOUT (MAIN BOARD) PRD 1334 ADP1047-300-EVALZ PRD 1334 ADP1047-300-EVALZ APPENDIX IV – LAYOUT (DAUGHTER CARD) PRD 1334 ADP1047-300-EVALZ PRD 1334 ADP1047-300-EVALZ PRD 1334 ADP1047-300-EVALZ PRD 1334 APPENDIX VIII – TEST WAVEFORMS Ch3: Iin, 5A/div, Ch1:VAC,200V/div Ch3: Iin, 2A/div, Ch1:VAC,200V/div Ch3: Iin, 5A/div, Ch1:VAC,200V/div Ch3: Iin, 2A/div, Ch1:VAC,200V/div ADP1047-300-EVALZ PRD 1334 Ch3: Iin, 5A/div, Ch1:Vac,200V/div,Ch4:Vout,100V/div Ch3: Iin, 5A/div, Ch1:Vac,200V/div, Ch4:Vout,100V/div Ch3: Iin, 5A/div, Ch4:Vout,100V/div Ch3: Iin, 5A/div, Ch4:Vout,100V/div ADP1047-300-EVALZ PRD 1334 APPENDIX IX – POWER FACTOR AT DIFFERENT LINE AND LOAD 1 0.9 Power Factor 0.8 Vin = 90V Vin = 120V 0.7 Vin = 150V Vin = 180V 0.6 Vin = 210V Vin = 240 V 0.5 0.4 0 50 100 150 200 Output power (W) 250 300 350 ADP1047-300-EVALZ PRD 1334 APPENDIX X – POWER METERING AT DIFFERENT LINE AND LOAD 5.00% 4.00% 3.00% Delta Error (W) 2.00% 1.00% Vin = 90V Vin = 120V 0.00% Vin = 150V -1.00% Vin = 180V Vin = 210V -2.00% Vin = 240 V -3.00% -4.00% -5.00% 0 50 100 150 200 Output Power (W) 250 300 ADP1047-300-EVALZ PRD 1334 APPENDIX X – BILL OF MATERIALS (MAIN BOARD) Part Reference Part Description Manufacture Mfg Part Number C1 C2 C3 C4 C5 C6 C7 C8 C9 C10 C11 C12 C13 C14 C15 C16 C17 C18 C19 C20 C21 C22 C23 C24 C25 C26 C27 C28 D1 D2 D3 D4 D5 D6 Panasonic - ECG Panasonic - ECG ECQ-U2A474ML ECQ-U2A474ML TDK Corporation Panasonic - ECG Panasonic - ECG CC45SL3AD680JYNN ECQ-E6334KF EET-UQ2W331DA Murata Electronics Panasonic - ECG Panasonic - ECG Murata Electronics Taiyo Yuden Murata Electronics Murata Electronics AVX Panasonic - ECG Panasonic - ECG Panasonic - ECG Panasonic - ECG Panasonic - ECG Panasonic - ECG Kemet Panasonic - ECG Kemet Panasonic - ECG AVX Kemet Diodes Inc Vishay/Semiconductors Vishay/Semiconductors Micro Commercial GRM21BR71H104KA01L ECJ-4YB1E475K ECQ-E6334KF GRM21BR71H104KA01L EMK325F226ZN-T GRM31A5C2J101JW01D GRM31A5C2J101JW01D 12101C102KAT2A ECJ-2VB1H102K ECJ-2VC1H330J ECJ-2VC1H330J ECJ-2VB1H102K ECJ-2VC1H330J ECJ-2VC1H330J C0805C102KDRACTU ECJ-2VB2D471K T491X107K025ZT ECJ-2VB2D471K 08055D105KAT2A T491X107K025ZT GBU806 8ETX06PBF 8EWS08S LMB6S-TP Micro Commercial DL4007 CAP 0.47uF 250/275 VAC CAP 0.47uF 250/275 VAC DNI DNI CAP CER DISC 68pF 1KV SL 5% RAD CAP METAL POLY 0.33uF 630 VDC CAP 330uF 450V ELECT DNI CAP 0.1uF 50V 10% X7R SMD CAP 4.7uF 25V CERAMIC X5R SMD CAP 0.33uF 630VDC METAL POLY CAP 0.1uF 50V 10% X7R CAP 22uF Y5V SMD CAP CER 100pF 630V COG 5% CAP CER 100pF 630V COG 5% CAP CER 1000pF 10% 100V X7R SMD CAP 1000pF 50V 10% X7R CAP 33pF 50V +/-5% NPO CAP 33pF 50V +/-5% NPO CAP CER 1000pF 50V X7R SMD CAP 33pF 50V +/-5% NPO CAP 33pF 50V +/-5% NPO CAP CER 1000PF 1000V X7R CAP 470PF 200V CERAMIC X7R CAP TANT 100uF 25V 10% CAP 470PF 200V CERAMIC X7R CAP CER 1uF 50V X5R 10% CAP TANT 100uF 25V 10% RECT BRIDGE GPP 600V 8A GBU DIODE HYPERFAST 600V 8A DIODE STD REC 800V 8A SMD IC RECT BRIDGE 0.5A 600V MBS-1 DNI RECT PASSIVATD 1A 1000V SMD ADP1047-300-EVALZ D9 D10 D11 D12 D13 D14 D15 D16 D17 D18 D19 F1 K1 Lr L1 L2 Q1 Q2 Q3 RTD1 R1 R2 R3 R4 R5 R6 R7 R8 R9 R10 R11 R12 R13 R14 R15 R16 R17 R18 R19 R20 R21 LED GREEN CLEAR 75mA 2.1V SMD LED SUPPER RED CLEAR 75mA 1.7V SMD LED SUPPER RED CLEAR 75mA 1.7V SMD RECT PASSIVATD 1A 1000V SMD DIODE SWITCH 100V 150MA DIODE ULTRA FAST SW 200V 1A DIODE ULTRA FAST SW 200V 1A DNI DIODE SWITCH 100V 150MA DNI DNI HOLDER PC FUSE 5mm LOW PROFILE RELAY PWR SPST-NO 8A 12VDC PCB DNI COMMON MODE LINE CHOKES 1.9mH BOOST CHOKE 500UHY MOSFET N-CH 650V 20.7A DNI MOSFET N-CH 30V 0.1A SOT-323 THERMISTER NTC 33K OHM 5% RAD RES 470K OHM METAL FILM 3W 5% SMD RES 10K OHM 1/2W 5% RES 470K OHM METAL FILM 3W 5% SMD RES 0.08 OHM 2W 1% +/-75PPM RES 390 OHM METAL FILM 1W 5% SMD RES 0.0 OHM 1/2W 5% DNI RES 10.0 OHM 1/8W 1% SMD SMD RES 0.0 OHM 1/2W 5% SMD RES 0.0 OHM 1/2W 5% SMD RES 499K OHM 1/2W 1% SMD RES 499K OHM 1/2W 1% SMD RES 36.5K OHM 1/2W 1% RES 470K OHM METAL FILM 3W 5% SMD RES 0.0 OHM 1/2W 5% SMD RES 470K OHM 1/8W 1% SMD RES 300 OHM 1/8W 1% SMD RES 499K OHM 1/2W 1% SMD RES 499K OHM 1/2W 1% SMD RES 36.5K OHM 1/2W 1% SMD RES 499K OHM 1/2W 1% PRD 1334 CHICAGO MINIATURE LIGHTING CHICAGO MINIATURE LIGHTING CHICAGO MINIATURE LIGHTING Micro Commercial Micro Commercial Diodes Inc Diodes Inc CMD15-21VGC/TR8 CMD15-21SRC/TR8 CMD15-21SRC/TR8 DL4007 1N4148WTPMSCT-ND US1D-13-F US1D-13-F Micro Commercial 1N4148WTPMSCT-ND Keystone Electronics Omron Electronics Inc-EMC Div 4527 G6RL-1A DC12 Coilcraft Precision Infineon Technologies CMT1-2.1-4L 019-4120-00 SPW20N60C3 Rohm Semiconductor EPCOS Inc Any Any Any Vishay/Dale Any Any 2SK3018T106 B57891M0333J000 Any Any Any Any Any Any Any Any Any Any Any Any Any Any WSL2816R0800FEH ADP1047-300-EVALZ R31 R32 R33 R34 R35 R36 R37 R38 R39 R40 R41 R42 R43 R44 R45 R46 R47 R48 SW1 T4 U1 U5 SMD RES 499K OHM 1/2W 1% RES 2.20K OHM 1/8W 1% SMD SMD RES 499K OHM 1/2W 1% SMD RES 36.5K OHM 1/2W 1% SMD RES 5.10K 1/8W 1% SMD RES 47.0 OHM 1/8W 1% DNI SMD RES 48.7K OHM 1/8W 1% RES 1.00K OHM 1/8W 1% SMD RES 249K OHM 1/2W 1% SMD DNI RES 10.0 OHM 1/8W 1% SMD RES 140K OHM 1/2W 1% SMD SMD RES 100 OHM 3/4W 5% RES 480K OHM METAL FILM 3W 5% SMD RES 8.06K OHM 1/8W 1% SMD RES 5.10K 1/8W 1% SMD RES 5.10K 1/8W 1% SW SLIDE SPDT 30V 0.2A PC MNT TRANSFORMER IC DRIVER DUAL 4A NONINV DC-DC 5.5W 85-265VAC PRD 1334 Any Any Any Any Any Any Any Any Any Any Any Any Any Any Any Any Any Keystone Electronics Precision Analog Devices Inc. POWER INTEEGRATIONS 5010 019-7086-00R ADP3634ARDZ-ND LNK606DG ADP1047-300-EVALZ PRD 1334 APPENDIX XI – BILL OF MATERIALS (DAUGHTER CARD) Part Reference Part Description Manufacture Mfg Part No C1 DNI C2 DNI C3 DNI C4 CAP CER 1000pF 50V 5% COG C5 DNI Murata Electronics GRM2165C1H102JA01D C6 DNI C7 DNI C8 DNI C9 C10 CAP CER 10uF 25V +/-20% X5R Panasonic - ECG ECJ-4YB1E106M CAP CER 0.1uF 50V 10% X7R Murata Electronics GRM21BR71H104KA01L C11 CAP CER 1.0uF 50V 10% X7R Murata Electronics GRM32RR71H105KA01L C12 CAP CER 0.1uF 50V 10% X7R Murata Electronics GRM21BR71H104KA01L C13 CAP CER 0.1uF 50V 10% X7R Murata Electronics GRM21BR71H104KA01L C14 DNI C15 DNI C16 DNI D1 DIODE SWITCH 100V 150MA Micro Commercial 1N4148WTPMSCT-ND D2 DIODE SWITCH 100V 150MA Micro Commercial 1N4148WTPMSCT-ND D6 LED SUPER RED CLEAR 75MA 1.7V SMD CHICAGO MINIATURE LIGHTING CMD15-21SRC/TR8 R1 RES 90.9K OHM 1/8W 1% SMD Any R2 RES 10K OHM 1/8W 1% SMD Any R3 RES 90.9K OHM 1/8W 1% SMD Any R4 RES 10K OHM 1/8W 1% SMD Any R5 RES 90.9K OHM 1/8W 1% SMD Any R6 RES 10K OHM 1/8W 1% SMD Any R7 RES 10K OHM 1/8W 0.1% SMD Any R8 RES 10K OHM 1/8W 0.1% SMD Any R9 RES 0.0 OHM 1/8W 5% SMD Any R11 RES 49.9K OHM 1/8W 0.1% SMD Any R12 RES 2.20K OHM 1/8W 1% SMD Any R13 RES 0.0 OHM 1/8W 5% SMD Any R14 RES 10K OHM 1/8W 1% SMD Any R15 RES 10K OHM 1/8W 1% SMD Any R16 RES 0.0 OHM 1/8W 5% SMD Any R18 RES 2.20K OHM 1/8W 1% SMD Any R19 RES 2.20K OHM 1/8W 1% SMD Any R20 RES 2.20K OHM 1/8W 1% SMD Any R21 RES 2.20K OHM 1/8W 1% SMD Any R22 RES 0.0 OHM 1/8W 5% SMD Any U1 Digital PFC Controller Analog Devices ADP1047 U2 Low Dropout Regulators Analog Devices ADP3303 ADP1047-300-EVALZ PRD 1334 APPENDIX XII – REGISTER FILE (REVA_IC REVISED-0408.47R) Reg(1 h) = 4h - OPERATION Reg(FE11 h) = 0h - PWM2_2 Reg(2 h) = 17h - ON_OFF_CONFIG Reg(FE12 h) = 20h - PWM2_3 Reg(10 h) = 0h - WRITE_PROTECT Reg(FE13 h) = 3h - PWM2_4 Reg(20 h) = 6h - VOUT_MODE Reg(FE14 h) = 1h - PWM_Set Reg(21 h) = 604h - VOUT_COMMAND Reg(FE15 h) = 33h - PWM_Limit Reg(29 h) = 80AAh - VOUT_SCALE_LOOP Reg(FE18 h) = 83h - RTD_ADC_gain_Trim Reg(2A h) = FB02h - VOUT_SCALE_MONITOR Reg(FE19 h) = 0h - Temperature_Fault_Limit Reg(35 h) = F154h - VIN_ON Reg(FE1A h) = 0h - Temperature_Warning_Limit Reg(36 h) = F118h - VIN_OFF Reg(FE1B h) = Dh - FREQUENCY SET Reg(40 h) = F708h - VOUT_OV_FAULT_Limit Reg(FE1C h) = 0h - LOW_SW_FREQ Reg(41 h) = C0h - VOUT_OV_FAULT_RESPONSE Reg(FE1D h) = 3h - Dither_Set Reg(42 h) = F690h - VOUT_OV_WARN_LIMIT Reg(FE1E h) = 0h - Frequency_Sync_Set Reg(43 h) = F500h - VOUT_UV_WARN_LIMIT Reg(FE20 h) = 28h - Voltage_Loop_Filter_Gain Reg(44 h) = F320h - VOUT_UV_FAULT_LIMIT Reg(FE21 h) = C0h - Voltage_Loop_Filter_Zero Reg(45 h) = 58h - VOUT_UV_FAULT_RESPONSE Reg(FE22 h) = 58h - Fast_Loop_Filter_Gain Reg(50 h) = 0h - OT_FAULT_RESPONSE Reg(FE23 h) = F8h - Fast_Loop_Filter_Zero Reg(55 h) = F434h - VIN_OV_FAULT_LIMIT Reg(FE24 h) = BBh - Fast_Loop_Enable Reg(56 h) = 0h - VIN_OV_FAULT_RESPONSE Reg(FE25 h) = 4Ah - VAC_threshold_set Reg(58 h) = F140h - VIN_UV_WARN_LIMIT Reg(FE27 h) = 4Bh - Min_Period_Set Reg(59 h) = F118h - VIN_UV_FAULT_LIMIT Reg(FE28 h) = 8Ah - Max_Period_Set Reg(5A h) = 78h - VIN_UV_FAULT_RESPONSE Reg(FE29 h) = 32h - Current_Loop_Filter_Gain Reg(5B h) = CA2Ah - IIN_OC_FAULT_LIMIT Reg(FE2A h) = D7h - Current_Loop_Filter_Zero Reg(5C h) = 0h - IIN_OC_FAULT_RESPONSE Reg(FE2B h) = 5Ah - Current_Loop_Filter_Gain_2 Reg(5D h) = CA5Fh - IIN_OC_WARN_LIMIT_ADC Reg(FE2C h) = AAh - Current_Loop_Filter_zero_2 Reg(6B h) = F550h - PIN_OP_WARN_LIMIT Reg(FE2D h) = 1Eh - Soft_Start_Set Reg(FE00 h) = 0h - CS_Fast_OCP_Response Reg(FE2E h) = 1h - INRUSH_Set Reg(FE01 h) = 80h - VFB_Fast_OVP_Response Reg(FE2F h) = 32h - VFB_OV_FAULT_RISE Reg(FE02 h) = 0h - OLP_Response Reg(FE30 h) = 3h - VFB_OV_FAULT_FALL Reg(FE03 h) = 0h - VDD3P3_SET Reg(FE31 h) = 2h - FAST_OVP_OLP_debounce Reg(FE04 h) = 0h - VCORE_SET Reg(FE32 h) = 0h - LOW_POWER_TH Reg(FE05 h) = 0h - PGOOD_AC_OK_DEBOUNCE_SET Reg(FE35 h) = 4Dh - HIGH LINE LIMIT Reg(FE06 h) = 0h - PS_ON_SET Reg(FE36 h) = 41h - LOW LINE LIMIT Reg(FE07 h) = 0h - Flag_Fault_ID Reg(FE37 h) = 11h - Ilim_trim Reg(FE08 h) = 1Bh - SoftStart_Flags_Blank_1 Reg(FE39 h) = 676h - EXPONENT Reg(FE09 h) = 0h - SoftStart_Flags_Blank_2 Reg(FE3A h) = 4h - READ_UPD_RATE Reg(FE0A h) = 0h - PGOOD_FLAGS_LIST Reg(FE3B h) = FB02h - VIN_SCALE_MONITOR Reg(FE0B h) = 0h - AC_OK_FLAGS_LIST Reg(FE3C h) = D320h - IIN_RSENSE Reg(FE0C h) = 0h - PWM1_1 Reg(FE3D h) = 1Fh - FAST_OCP_BLANK Reg(FE0D h) = 0h - PWM1_2 Reg(FE3E h) = E0h - CS_Fast_OCP_set Reg(FE0E h) = 20h - PWM1_3 Reg(FE3F h) = 0h - TEMP_HYS Reg(FE0F h) = 3h - PWM1_4 Reg(FE40 h) = Fh - VAC_ADC_gain_Trim Reg(FE10 h) = 0h - PWM2_1 Reg(FE41 h) = 85h - VFB_ADC_gain_Trim ADP1047-300-EVALZ Reg(FE42 h) = 98h - CS_ADC_gain_Trim Reg(FE43 h) = 0h - Ibal gain Reg(FE44 h) = 1Ah - SMTVOUT_LOW_POWER_THRES Reg(FE45 h) = C0h - SMTVOUT_HIGH_POWER_THRES Reg(FE46 h) = 457h - SMTVOUT_LOW_LINE_VO1 Reg(FE47 h) = 4ACh - SMTVOUT_LOW_LINE_VO2 Reg(FE48 h) = 4A0h - SMTVOUT_High_LINE_VO1 Reg(FE49 h) = 4FEh - SMTVOUT_High_LINE_VO2 Reg(FE4A h) = 4FEh - SMTVOUT_UPLIMIT_VOH Reg(FE4B h) = 66Ah - SMTVOUT_VAC_240V Reg(FE4C h) = 0h - SYNC_DELAY Reg(FE4D h) = 5Dh - SMTVOUT_VAC_240V_HYS Reg(FE4E h) = 8h - Power_HYS Reg(FE4F h) = 40h - ADV_FUNCTION_EN Reg(FE51 h) = 3Ch - VIN_UV_FAULT_HYST Reg(FE52 h) = 40h - VAC_OS_sel Reg(FE53 h) = 0h - VAC_ADC_offset_Trim Reg(FE54 h) = 0h - CS_ADC_offset_Trim Reg(FE55 h) = 62h - CS_OS_sel Reg(FE7E h) = 20h - CS_GAIN_TRIM_HRANGE Reg(FE7F h) = 0h - CS_OFFSET_TRIM_HRANGE Reg(FE83 h) = 0h - RESTART_SET Reg(FE90 h) = 50h - CLF_GAIN_LIGHTLOAD Reg(FE91 h) = B4h - CLF_ZERO_LIGHTLOAD Reg(FE92 h) = 50h - HLINE_CLF_GAIN_LIGHTLOAD Reg(FE93 h) = B4h - HLINE_CLF_zero_LIGHTLOAD Reg(FE94 h) = 0h - SMTOUT_POWER_AVE PRD 1334 ADP1047-300-EVALZ NOTES ©2009 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. Error! Unknown document property name. PRD 1334