Evaluation Board User Guide UG-467 One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com Evaluating the ADP5061 Tiny I2C Programmable Linear Battery Charger with Power Path and USB Mode Compatibility FEATURES GENERAL DESCRIPTION Input voltage 4.0 V to 6.7 V High current terminals for ADP5061 power connection (VINx), system voltage (ISO_Sx), and battery voltage (ISO_Bx) pins ADP5061 operation configurable via I2C interface Evaluation software included The ADP5061 charger evaluation system is composed of an evaluation board, an USB A-to-USB Micro B cable, and an USB A adapter board. All evaluation board functions and circuits are controlled via one I2C bus connector. The I2C bus interfaces with the ADP5061 directly, and the digital input/output signals are controlled through an on-board input/output expander circuit on the I2C bus. The evaluation board also features a 3.4 V regulator for VDDIO generation. The board contains jumpers and numerous test points for easy evaluation. PACKAGE CONTENTS ADP5061CB-EVALZ evaluation board USB Micro A-to-USB Micro B cable USB A adapter board Evaluation CD: ADP5061 evaluation software installer HARDWARE REQUIREMENTS The ADP5061CB-EVALZ evaluation kit contains a CD with the ADP5061 graphical user interface (GUI) Version 3.0 installer. Use the GUI in conjunction with the USB-SDP-CABLEZ USB to serial I/O interface. USB-to-serial-I/O interface USB-SDP-CABLEZ (USB-SDPCABLEZ is not supplied in the evaluation kit and should be ordered separately from Analog Devices, Inc.) Full performance details are provided in the ADP5061 data sheet, and the ADP5061 data sheet should be consulted in conjunction with this user guide. SOFTWARE REQUIREMENTS Analog Devices ADP5061 SDP evaluation software 10993-001 ADP5061 EVALUATION BOARD Figure 1. PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. Rev. 0 | Page 1 of 12 UG-467 Evaluation Board User Guide TABLE OF CONTENTS Features .............................................................................................. 1 Setting Timers ................................................................................4 Package Contents .............................................................................. 1 Direct Register Read and Write ...................................................5 Hardware Requirements .................................................................. 1 Evaluation Board Overview .............................................................6 Software Requirements .................................................................... 1 Typical Operation ..........................................................................6 General Description ......................................................................... 1 Input Current .................................................................................7 ADP5061 Evaluation Board ............................................................ 1 Trickle Charge Current .................................................................7 Revision History ............................................................................... 2 Fast Charge Current ......................................................................8 Evaluation Board Software .............................................................. 3 Termination Voltage and End of Charge (EOC) Current ........8 Installing ADP5061 Evaluation Software .................................. 3 THR Input and JEITA Settings ....................................................9 Using the Software GUI ............................................................... 3 Schematic Diagram ........................................................................ 10 Operating the Board with the GUI ............................................ 3 Ordering Information .................................................................... 11 Basic Charging Parameter Settings ............................................ 4 Bill of Materials ........................................................................... 11 Setting Interrupts .......................................................................... 4 REVISION HISTORY 11/12—Revision 0: Initial Version Rev. 0 | Page 2 of 12 Evaluation Board User Guide UG-467 EVALUATION BOARD SOFTWARE INSTALLING ADP5061 EVALUATION SOFTWARE OPERATING THE BOARD WITH THE GUI Before installing the ADP5061 evaluation software, the drivers for the USB-SDP-CABLEZ must be installed. The software and the instructions can be obtained from www.analog.com/USB-SDPCABLEZ. Complete the following steps to use the board: 1. 2. After proper installation of the USB-SDP-CABLEZ drivers, insert the ADP5061CB-EVALZ setup CD and run the Setup.exe. USING THE SOFTWARE GUI 3. The following are the GUI operation controls and status tools (see Figure 2): Operation parameter controls Functional enables Interrupt register indicator (Register 0x0A) Charger status Battery status Fault indicators Watchdog control Digital I/O controls I2C Communication Status Indicators VIN must be above 2.5 V in order for the I2C communication of the ADP5061 to start working. The VIN voltage level is monitored, and the indicators are shown in the charger status indicators (see Number 4 in Figure 2). The GUI automatically reads the content of the registers after every 0.3 seconds from the last action and updates the status of the registers on screen. If there is a problem in the I2C communication, the status indicators show an error message (see Number 9 in Figure 2). When I2C communication is operational, status indicators show I2C_STATUS_OK (see Figure 2). 3 2 6 4 5 7 8 1 9 Figure 2. ADP5061 GUI Operation Control and Status Tab Rev. 0 | Page 3 of 12 10993-012 1. 2. 3. 4. 5. 6. 7. 8. 9. Before running the software, ensure that the Analog Devices USB-SDP-CABLEZ is plugged into the USB port of the PC. Connect a 5 V power supply to VIN_F using the USB Micro A-to-USB Micro B connector or alternatively connect the power supply between the VIN_F test point and GND (see Figure 5). Click Start > All Programs > ADP506x GUI 3Vx SDP > ADP506x GUI SDP. Once this step is completed, the software is ready to use. UG-467 Evaluation Board User Guide BASIC CHARGING PARAMETER SETTINGS The Interrupts & Timers tab (see Figure 3) in the GUI controls the register settings. Register 0x0A is automatically read after every 0.3 second timeout from the last user action involving the GUI. When a certain interrupt is enabled, and there is a status change in the corresponding function during charging, an interrupt message is shown in the Opr Control & Status tab (see Number 3 in Figure 2). After the input power supply is connected and is between 4.0 V and 6.7 V, the ADP5061 is operational and capable of charging the battery. Charging starts with default operational parameter settings. It is possible to change settings using the controls on the left side of the Opr Control & Status tab. SETTING INTERRUPTS SETTING TIMERS The ADP5061 includes several interrupt flags to inform the system microcontroller of a status change in the corresponding charger function. All interrupts are disabled by default, and each interrupt can be separately enabled by issuing an I2C write to Register 0x09. The default settings of the timers are shown in Figure 3. Changing the timer settings can be done by clicking items in the Timer Settings (Write to Register 0x06) box. Register 0x09 controls the interrupt enables, and Register 0x06 controls the timer settings. 1 10993-013 2 Figure 3. ADP5061 Evaluation Software GUI, Interrupts & Timers Tab Rev. 0 | Page 4 of 12 UG-467 10993-014 Evaluation Board User Guide Figure 4. ADP5061 Evaluation Software GUI, Register R/W Tab DIRECT REGISTER READ AND WRITE It is possible to read and write the content of each register using the Register R/W tab as indicated in the GUI. Click READ ALL to update the contents of each register in the GUI. A single register read or write can be done using the controls on the right side of the Register R/W tab of the GUI. Type the I2C sub address in the Sub Address for READ and WRITE (0x00) box, and then press ENTER. Click READ to read the binary data, or click WRITE to write the binary data. Type the binary data for an I2C write, and then press ENTER. Note that some registers, such as Register 0x00 and Register 0x01, are read only registers and cannot be overwritten. Rev. 0 | Page 5 of 12 UG-467 Evaluation Board User Guide EVALUATION BOARD OVERVIEW ADI USB TO I2C CABLE GND VIN AND GND SUPPLY ALTERNATIVE R13 JP1 C6 GND SDA SCL VBUS USB A ADAPTER ADP506X DE VI C E S A NAL OG GND VBUS R10 USB A VIN_F VIN_F TP3 J9 VIN_S CBP TP4 C2 TP5 VCO_LDO J10 C12 D1 U1 C1 C4 7.2mm GND JP3 AGND R18 C3 TP20 GND GND ISO_B_S BAT_SNS SYS_EN SDA ISO_B_S SCL ISO_B_F R16 BAT_SNS ISO_S_S ISO_S_F J3 VIN_F ISO_S_F GND J4 19 R12 R9 U2 C5 8.4mm U3 ILED ILED_S R17 R11 GND J11 GND GND ND ND R15 R14 R1 R2 17 THR GND_S ISO_S_S 9 8 18 16 ISO_B_S A NAL OG DE VI C E S ADP5061 WLCSP DEMO J7 JP2 R5 D1 D1S J6 D2 D2S R8 R6 7 2 VIN_S 1 1 2 GND J8 D1 TP6 D2 R7 14 10 D1 D3 TP15 11 O VDDIO ILED ISO_S_F 1 D3 12 D2 13 ISO_S_F THR BAT_SNSISO_B_F GND 2 SYS_EN J5 D3SD3 VIN 5.0 V TO PC J1 J2 1 USB 10993-015 GND SMU OR BATTERY BATTERY THERMISTOR GND RS SYSTEM LOAD VIN AND GND MICRO A/B Figure 5. ADP5061 WLCSP Demo Board Typical Operation Setup. TYPICAL OPERATION The typical test setup for the ADP5061 charger consists of a dc power supply unit (PSU) for VIN_F, a source meter unit (SMU) or a battery simulator for the ISO_B_x pins, and a variable power resistor or electronic load for the ISO_S_x pins. When the charger operates at high current rates, the voltage drop over the USB cable and USB connectors can be significant. For easy evaluation of real cable and connector losses, the ADP5061 evaluation kit contains an USB cable and an USB A adapter board that includes a screw terminal for the VIN_F voltage supply. The SMU at the ISO_B node must have a 100 mΩ to 250 mΩ resistor (RS) in series with its positive lead. The resistor emulates the equivalent series resistance of a real battery. Some SMU models that have been successfully used for the ISO_Bx node include the following: • • • Rev. 0 | Page 6 of 12 Keithley 2306 battery simulator Keithley 2602A SMU Agilent 6784A/6762A SMU Evaluation Board User Guide UG-467 INPUT CURRENT To measure the VINx current limit, do the following: Measuring Total Input Current (IVIN) 1. 2. 3. When measuring VINx input quiescent currents, take into account that the evaluation board includes an LDO (U1) and I2C input/output (I/O) expander (see U2 and U3A in Figure 8). The LDO generates a 3.4 V VDDIO voltage for the I2C bus and SYS_EN open-drain output, and the I/O expander controls digital inputs DIG_IO1, DIG_IO2, and DIG_IO3. In the ADP5061 evaluation board typical setup, the U1 and the U3 are powered through a pin header, J3. Typically, the combined current consumption of the U1 and the U3 are in the range of 1 mA to 2 mA. To separate the evaluation board quiescent current from the ADP5061 VINx quiescent current, leave J3 open and connect a second dc power supply (3.5 V to 5.0 V) to the TP5 test point (see Figure 6). J6 R8 R13 SDA VIN_F VIN_F D2 VIN_S TP3 J9 CBP TP4 J10 C12 D 2S R10 TP5 VCO_LDO C4 7.2mm GND J11 C2 U1 C3 TP20 8.4mm R17 R18 R16 J4 ISO ISO ISO ISO J3 VIN_F ISO_S_F GND J1 ISO THR J2 C1 CONNECT 3.5V – 5V SUPPLY ON TP5 TO POWER U1 AND U3 • 5. 6. The Battery Status indicator on the GUI must show BAT_SNS > Vweak (see Figure 2). The ADP5061 must start charging 80 mA to 90 mA current into the battery. Measure the current on VINx supply. Use the GUI to change the input current limit programming and repeat the measurement. A 1300 mA charge current into the battery may not be large enough to drive the input current up to the limit when the current limit programming values of 1200 mA or higher are used. Connect an additional load on the ISO_Sx node to evaluate the higher end of the input current limit programming range. Trickle charge can only be activated during a battery charging startup sequence, if the voltage level at the ISO_Bx pins is lower than the VTRK_DEAD threshold (typically 2.5 V). When VVIN is 5.0 V, initiate a charge startup sequence by setting an I2C write of Register 0x07, Bit D0 (EN_CHG), high. To measure the trickle charge current level, do the following: ISO BAT_SNS • TRICKLE CHARGE CURRENT R12 R9 U2 C5 D1 R15 R14 R1 R2 SCL THR GND_S ISO_S_S 16 1 8 9 ISO_ D1S U3 ILED ILED_S C6 JP1 R11 GND GND GND 1 OPEN J3 10993-016 J7 JP2 R5 D1 VIN_S 1 17 1 R6 7 2 D1 D3 11 TP15 ISO_S_F R7 D2 13 VDDIO ILED J8 D1 TP6 D2 D3SD3 D3 14 2 SYS_EN J5 10 12 4. Set the VVIN supply voltage to 5.0 V. Set the VISO_B voltage to 3.6 V on SMU B. Enable charging by setting Register 0x07, Bit D0 (EN_CHG), to high. Confirm that the ADP5061 is in charging mode by the following: 1. 2. 3. 4. Figure 6. Board Setup for VINx Quiescent Current Measurement VINx Current Limit The VINx current limit of the ADP5061 can be evaluated in charging mode. Note that the maximum programming for the charge current into the battery (ISO_Bx) is 1300 mA. For measuring the input current limit across the full programming range from 100 mA to 2100 mA, additional system load has to be connected to the ISO_Sx pins. 5. Set the VISO_B voltage (SMU or battery simulator) to 2 V. Set the VIN supply voltage to 5.0 V. Check that the GUI Charger Status indicator shows Trickle Charge. Check that the GUI Battery Status indicator shows BAT_SNS < Vtrk. Check the battery short detection by doing the following: • • • 6. 7. 8. Rev. 0 | Page 7 of 12 Wait for a 30 second timeout to expire Check that the GUI shows that the I2C fault register (Register 0x0D, Bit D3) BAT_SHR flag is set. Use the GUI to change the battery short timeout setting from 1 second to 180 second. Measure the trickle charge current level to the battery. The default value for ITRK_DEAD is 20 mA. It is possible to change the trickle charge current setting from 5 mA to 80 mA using the GUI. Adjust the VISO_B voltage up until the Battery Status indicator shows Vtrk < BAT_SNS < Vweak. The Charger Status indicator on the GUI should show Fast Charge (CC-Mode). The charge current is now programmed ICHG + ITRK_DEAD, if it is not limited by the input current limit. UG-467 Evaluation Board User Guide FAST CHARGE CURRENT Measuring EOC Current To measure the fast change current, do the following: To measure the EOC current, do the following: 1. 2. 3. 4. 5. 6. Set the VIN supply voltage to 5.0 V. Set VISO_B to 3.9 V. Verify that the GUI Battery Status indicator shows BAT_SNS > Vweak. Set the VINx input current limit to the maximum value 2100 mA. Measure the charge current into the battery. The default value for the fast charge current is 750 mA. It is possible to change the fast charge current setting from 50 mA to 1300 mA using the GUI. The fast charge current may be reduced because of the following conditions: • • The VBAT_SNS level is close to the termination voltage VTRM (default 4.20 V). The die temperature TJ exceeds the isothermal charging temperature TLIM (typically 115 °C). TERMINATION VOLTAGE AND END OF CHARGE (EOC) CURRENT Measuring Termination Voltage Using SMU or Battery Simulator The ADP5061 fast charge constant voltage (CV) regulation is optimized for batteries with series resistance in the 100 mΩ to 250 mΩ range. When using a SMU or a battery simulator connected to the ISO_Bx, set the series resistance (RS in Figure 5) within this range. 8. Use the GUI to set the termination current to 52.5 mA. 9. Step VISO_B down 100 mV. 10. Enable the EOC by setting the EN_EOC bit (D2) to high in the functional settings register, Register 0x07. 11. Step VISO_B up and monitor the charge current for each step until the Charger Status indicator in the GUI shows Charge Complete. The last charge current value before Charge Complete is the charge complete current threshold. Charging stops and there is no current flowing into the ISO_Bx node. Measuring Recharge Voltage To measure the recharge voltage, do the following: 12. Step VISO_B down, and monitor the voltage until the Charger Status indicator on the GUI shows Fast Charge (CC-Mode) and charge current flows to the ISO_Bx node. Last value before the charger status change is the recharge voltage level. With default settings, the recharge voltage threshold is 3.94 V (VISO_B). 13. Use the GUI to change the termination current and recharge voltage programming. Repeat Step 9 to Step 12 to evaluate different settings. Some battery simulators, such as the Keithley 2306, have programmable source resistance integrated in the instrument itself. For SMU units, use an external resistor to obtain accurate measurement results of the termination voltage. To measure the termination voltage, do the following: 1. 2. 3. 4. 5. 6. 7. Set the VVIN supply voltage to 5.0 V. Set the termination voltage to 4.2 V using the GUI. Disable the EOC by setting the EN_EOC bit (D2) to low in the functional settings register, Register 0x07. Disable charge complete timer register, Register 0x06, using the GUI (see Figure 3). Sweep VISO_B up until Charger Status indicator in the GUI shows Fast Charge (CV-Mode). Sweep VISO_B up until charge current has dropped to 50 mA. In fast charge CV mode, 1 mV step up of VISO_B can reduce the charge current by several mA. Measure termination voltage between the BAT_SNS (TP20) and GND_S (TP9) nodes. Rev. 0 | Page 8 of 12 Evaluation Board User Guide UG-467 THR INPUT AND JEITA SETTINGS Evaluating THR Input Using a Trimmer Resistor The THR input of the ADP5061 evaluation board is equipped with two 10 kΩ resistors (R9 and R12) and jumper J10. When using an actual Li-Ion NTC thermistor terminal, configure the board according to Figure 7. It is possible to evaluate the resistance thresholds according to the JEITA Li-Ion battery temperature levels with a 50 kΩ trimmer resistor. Use the setup shown in Figure 7; however, connect the trimmer resistor to the THR input of the J2 screw terminal instead of the battery thermistor. 1. 2. Remove the R9 resistor. Connect the Li-Ion battery NTC thermistor to the screw terminal, J2, at Pin 4. 1. 2. 3. 4. 5. 6. REMOVE R9 J9 CBP TP4 C5 D1 C12 C3 TP20 J1 GND ISO_B_F SYS_EN ISO_B_S SDA ISO_B_S SCL ISO_S_S ISO_S_F 1 VDDIO ILED ISO_S_F R16 BAT_SNS J3 VIN_F ISO_S_F GND J4 GND BAT_SNS R18 U2 JP3 AGND R12 R9 C4 7.2mm GND J11 U1 J10 8.4mm R17 GND 19 ISO_S_F 7. 8. THR BAT_SNS ISO_B_F GND J2 1 C1 CONNECT THERMISTOR 10993-017 IN _S TP3 17 THR GND_S ISO_S_S 8 9 16 18 ISO_B_S D E V I C E S ADP5061 WLCSP DEMO IN _F IN _F 7 2 VIN_S 1 A NAL OG 14 10 2 D1 D3 TP15 11 13 2 12 Figure 7. THR Input Evaluation Setup. Evaluating THR Input Using Typical Board Setup To evaluate the THR input using the typical board setup, do the following: 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. Set the VIN supply voltage to 5.0 V. Set VISO_B to 3.9 V. Set the charge current setting to 750 mA using the GUI. Set VIN input current limit to 1500 mA. Enable charging (EN_CHG = high). Measure current to ISO_Bx, value should be 750 mA. Remove jumper J10 from the board. The THR-pin status indicator on the GUI must show BatCool. Enable JEITA by setting EN_JEITA bit high in functional settings register, Register 0x08. Measure current to ISO_Bx. Charging current must now be half of the fast charge current setting. Reinstall Jumper J10 to the board. The charge current must return to the full charge current setting value. The THR-pin status indicator must show Thermistor OK. Rev. 0 | Page 9 of 12 Set the VIN supply voltage to 5.0 V. Set VISO_B to 3.9 V. Set the charge current setting to 750 mA using the GUI. Set the VIN input current limit to 1500 mA. Enable charging (EN_CHG = high). Enable JEITA by setting EN_JEITA bit high in functional settings register, Register 0x08. Change the trimmer resistor setting to evaluate the JEITA thresholds. The THR input resistance thresholds are specified in the ADP5061 data sheet. The THR-pin status indicator in the GUI must show BatCold, BatCool, Thermistor OK, BatWarm, or BatHot when adjusting the trimmer resistance from 50 kΩ to 0 Ω. UG-467 Evaluation Board User Guide TP1 TP2 1 1 1 2 4 3 2 1 VIN_F VIN_S TP5 VIN_F 6 5 GND8 ADJ GND7 VIN ADP5061WLCSP U2 GND6 VOUT EN adp1720 GND5 J3 SN6 1 2 3 2 E3 D3 3 C1 1u 4 C2 1u C3 10uF VDDIO CON3 C3 A4 SCL ISO_S_F A3 SDA E4 VDDIO R7 R6 R5 N.A. N.A. N.A. R10 1 0R 15 8 R13 1k5 SCL SDA A2 1 6 7 9 10 11 12 13 14 B3 J6 J7 ISO_S2 ISO_S3 ISO_B1 SCL SDA ISO_B2 DIG_IO1 ISO_B3 BAT_SNS DIG_IO2 DIG_IO3 THR SYS_EN ILED CBP E2 ISO_S_F C4 22uF D2 C2 E1 ISO_B_F C5 22uF D1 C1 D4 BAT_SNS A1 SDA 0R J9 TP3 TP4 THR TP9 R9 10k CBP_S SN10 RESET* GND VCC J10 16 ILED C6 100nF SYM 1 OF 1 TP8 SN11 J8 R11 2 TP7 B2 SYS_EN R12 10k C12 10nF 3 2 1 3 2 1 TP12 TP13 TP14 TP15 TP16 TP17 TP18 TP19 1 1 1 1 1 1 TP20 D1 LED 1 TP11 1 JP1 TP10 1 R15 1k5 1 CBP R14 1k5 1 SCL SDA R16 SN4 SN3 ISO_S_F HEADER_3 SN9 SN5 R17 470R 0R SN8 J11 1 2 3 CON3 DIG_IO1 DIG_IO1_S DIG_IO2 DIG_IO2_S DIG_IO3 DIG_IO3_S ISO_S_S ISO_S_F ISO_B_S ISO_B_F BAT_SNS ILED_S ILED VDDIO Test connectors. Not Assembled ISO_S_F . JP3 JP2 ATEST 1 ATEST 2 C7 47u C8 47u C9 47u C10 47u C11 22u ATEST 4 d . 1 2 DIG_IO1_S 3 4 DIG_IO2 5 6 DIG_IO2_S DIG_IO3 ATEST 3 C7, C8, C9, C10 not assemble Pads are on the bottom side DIG_IO1 7 AGND VIN_F VIN_S R18 8 9 10 DIG_IO3_S 11 12 ILED 13 14 ILED_S 15 16 17 18 19 20 ISO_B_F 150m ISO_B_S AGND HeaderLarge10 x2 Figure 8. ADP5061 WLCSP Demo Board Schematic Rev. 0 | Page 10 of 12 1 2 3 4 5 6 8 BAT_SNS 9 10 SYS_EN 11 12 SDA 13 14 SCL 7 ISO_S_S 15 16 17 18 ISO_S_F 19 20 HeaderLarge10 x2 DTES T 10993-018 SCL TP6 VIN2 VIN3 B1 P0 P1 P2 P3 P4 P5 P6 P7 A0 A1 A2 SYS_EN J5 1 3 4 5 C4 B4 R8 1k5 1 U3A pca9557dbg4 ISO_S1 VIN1 1 7 1 1 8 AGND VDD_LDO U1 1 100k 1 R2 56k ISO_B_F THR R1 BAT_SNS ISO_S_F 5 GND USB-miniB J4 VIN_F 1 2 3 4 J2 CON4 J1 CON2 DD+ ID 6 VDD MS1 7 MS2 G1 S1 SCHEMATIC DIAGRAM Evaluation Board User Guide UG-467 ORDERING INFORMATION BILL OF MATERIALS Table 1. Qty 2 1 3 1 1 4 1 1 2 1 Reference Designator C1, C2 C3 C4, C5, C11 C6 C12 C7, C8, C9, C10 D1 JP1 JP2, JP3 J1 Description Capacitors, MLCC, 1 µF, 10 V, 0805, X7R Capacitor, MLCC, 10 µF, 25 V, 0805, X5R Capacitors, MLCC, 22 µF, 6.3 V, 1206, X5R Capacitor, MLCC, 100 nF, 16 V, 0402, X7R Capacitor, MLCC, 10 nF, 16 V, 0402, X7R Capacitors, size 1206 Red LED 2.2 mm × 1.4 mm Connector header, 3 pins × 1 pin Connector headers, 10 pins × 1 pin MKDS 1, 5/2-terminal block, PCB, 5 mm, 2-way 1 2 1 6 1 1 3 4 2 3 1 1 20 1 J2 J3, J11 J4 J5, J6, J7, J8 ,J9, J10 R1 R2 R5, R6, R7 R8, R13, R14, R15 R9, R12 R10, R11, R16 R17 R18 TP1 to TP20 U1 1 U2 1 U3A Terminal block PCB connector, 4 position Connector headers, 3 pins × 1 pin USB Micro AB connector receptacle Connector headers, 2 pins × 1 pin Resistor, 56 kΩ, 1%, 0805, SMD Resistor, 100 kΩ, 1%, 0805, SMD Resistors, 0805, SMD, no assembly Resistors, 1.5 kΩ, 1%, 0805, SMD Resistors, 10 kΩ, 1%, 0805, SMD Resistors, 0 Ω, 1%, 0805, SMD Resistor, 470 Ω, 1%, 0805, SMD Resistor, 0.150 Ω, 1%, 0805, SMD Test point, test header, 1.0 mm hole ADP1720 50 mA high voltage, micropower linear regulator, 8-lead MSOP ADP5061 tiny I2C programmable linear battery charger with power path and USB mode compatibility 8-bit I2C-bus I/O port with reset Rev. 0 | Page 11 of 12 Manufacturer/Vendor Murata Murata Murata Murata Murata Not assembled Toshiba or equivalent Sullins Electronics Not assembled Phoenix Contact or equivalent Tyco Electronics Sullins Electronics Molex Sullins Electronics Vishay or equivalent Panasonic Not applicable Vishay or equivalent Vishay or equivalent Vishay or equivalent Vishay or equivalent Rohm Vero Technologies Analog Devices, Inc. Vendor Number GRM21BR71A105KA01 GRM21BR61E106MA73 GRM31CR60J226ME19 GRM155R71C104KA88 GRM15XR71C103KA86 Not assembled TLRF1060(T18) PEC36SAAN Not assembled MKDS 1, 5/2 282836-4 PEC36SAAN 47590-0001 PEC36SAAN CRCW080556K0FKEA ERJ-6ENF1003V Not applicable CRCW08051K50FKEA CRCW080510K0FKEA CRCW08050000Z0EA CRCW0805470RFKEA MCR10EZHFLR150 20-2137 ADP1720ARMZ-R7 Analog Devices, Inc. ADP5061 NXP PCA9557PW, 112 UG-467 Evaluation Board User Guide NOTES ESD Caution ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality. Legal Terms and Conditions By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. 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THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT. ADI SPECIFICALLY DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER’S POSSESSION OR USE OF THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT. Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable United States federal laws and regulations relating to exports. GOVERNING LAW. This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed. ©2012 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG10993-0-11/12(0) Rev. 0 | Page 12 of 12