19-5744; Rev 0; 1/11 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B General Description Features The MAX16920B evaluation kit (EV kit) is an assembled and tested PCB used to evaluate the MAX16920B powermanagement IC for automotive radios, containing three step-down converters, one linear regulator (LDO), and an overvoltage-protection block. S 5.5V to 18V Input Range, Survives 45V Transients The EV kit comes with a MAX16920BATJ/V+ installed, which is the 2.2MHz switching-frequency version. For the 400kHz switching-frequency version, contact the factory for free samples of the pin-compatible MAX16920AATJ/V+. Additional capacitors and inductors are provided in the EV kit for the MAX16920A. S 5V at 150mA Output (OUTA from LDOA) S 3.3V at 150mA Output (OUT1 from DC-DC1) S 5V at 600mA Output (OUT2 from DC-DC2) S 3.3V at 1.5A Output (OUT3 from DC-DC3) S LED Power-Good Indicators for All Step-Down Converters and LDO S Proven PCB Layout S Fully Assembled and Tested Ordering Information appears at end of data sheet. Component List DESIGNATION C1, C6 C2 C3, C18 C4, C5, C17 C7, C15, C16, C19 C8 C9, C13 C10 C11, C12, C20 C14 QTY DESCRIPTION 2 4.7FF Q10%, 6.3V X7R ceramic capacitors (0805) Murata GRM21BR70J475K 1 0.47FF Q10%, 6.3V X7R ceramic capacitor (0603) Murata GRM188R70J474K 0 Not installed, ceramic capacitors (0603) DESIGNATION QTY DESCRIPTION D1 1 3A, 50V Schottky diode (SMC) Diodes Inc. B350-13-F D2, D3, D4 3 Green LEDs (0603) D5 1 Red LED (0603) D6 0 Not installed, diode (SMA) JU1-JU6 6 3-pin headers JU7-JU10 4 2-pin headers 1 8.2FH, 790mA inductor (4mm x 4mm x 1.2mm) Panasonic ELLSFG8R2NA 3 0.1FF Q10%, 16V X7R ceramic capacitors (0603) Murata GRM188R71C104K L1 L2 1 4 10FF Q20%, 50V X7R ceramic capacitors (2220) TDK C5750X7R1H106M 4.7FH, 1.16A inductor (5.0mm x 5.6mm x 1.2mm) TDK VLP5612T-4R7MR93 L3 1 1 22FF Q10%, 10V X7R ceramic capacitor (1206) Murata GRM31CR71A226K 2.2FH, 4.18A inductor (7.60mm x 7.60mm x 3.55mm) Cooper Bussmann DRA73-2R2-R 1 2 47FF Q10%, 10V X7R ceramic capacitors (1210) Murata GRM32ER71A476K L4 10FH, 2.56A inductor (7.60mm x 7.60mm x 4.35mm) Cooper Bussmann DRA74-100-R P1 1 1 10FF Q10%, 10V X7R ceramic capacitor (1206) Murata GRM31CR71A106K 50V, 5.3A p-channel MOSFET (D PAK) Vishay IRFR9010TRPbF R1 1 100kI Q1% resistor (0603) 0 0 Not installed, ceramic capacitors (1210) Not installed, aluminum electrolytic capacitor (8.00mm x 10.2mm) R2 1 19.1kI Q1% resistor (0603) R3-R6 4 1kI Q5% resistors (0603) R7, R8 2 10kI Q5% resistors (0603) R9, R10 2 100kI Q5% resistors (0603) R11-R16 0 Not installed, resistors (0603) R17 1 0I Q5% resistor (0603) __________________________________________________________________ Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com. MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B Component List (continued) DESIGNATION QTY U1 1 Power-management IC (32 TQFN-EP) Maxim MAX16920BATJ/V+ -- 10 Shunts 1 PCB: MAX16920B EVALUATION KIT+ -- DESCRIPTION DESIGNATION QTY -- 1 47FF Q10%, 10V X7R ceramic capacitor (1210) Murata GRM32ER71A476K -- 1 47FH, 1.14A inductor (7.60mm x 7.60mm x 4.35mm) Cooper Bussmann DRA74-470-R -- 1 22FH, 1.68A inductor (7.60mm x 7.60mm x 4.35mm) Cooper Bussmann DRA74-220-R -- 1 10FH, 2.56A inductor (7.60mm x 7.60mm x 4.35mm) Cooper Bussmann DRA74-100-R ADDITIONAL COMPONENTS FOR MAX16920A EVALUATION -- 3 22FF Q10%, 10V X7R ceramic capacitors (1206) Murata GRM31CR71A226K DESCRIPTION Component Suppliers SUPPLIER PHONE WEBSITE Cooper Bussmann 916-941-1117 www.cooperet.com Diodes Incorporated 805-446-4800 www.diodes.com Murata Electronics North America, Inc. 770-436-1300 www.murata-northamerica.com Panasonic Corp. 800-344-2112 www.panasonic.com TDK Corp. 847-803-6100 www.component.tdk.com Vishay 402-563-6866 www.vishay.com Note: Indicate that you are using the MAX16920B when contacting these component suppliers. * MAX16920B EV kit Quick Start 5) Adjust the second load to 600mA and connect to the OUT2 and PGND2 PCB pads on the EV kit. Required Equipment 6) Connect the second voltmeter to the OUT2 and PGND2 PCB pads on the EV kit. 7) Adjust the third load to 1.5A and connect to the OUT3 and PGND3 PCB pads on the EV kit. * 12V, 2.5A DC power supply * Four electronic loads (e.g., HP6060B) * Four voltmeters Procedure The EV kit is fully assembled and tested. Follow the steps below to verify board operation. Caution: Do not turn on power supplies until all connections are completed. 1) Verify that all jumpers are in their default position, as shown in Table 1. 2) Adjust the power supply to 12V and connect to the VIN and PGND PCB pads on the EV kit. 8) Connect the third voltmeter to the OUT3 and PGND3 PCB pads on the EV kit. 9) Adjust the fourth load to 150mA and connect to the OUTA and GND PCB pads on the EV kit. 10) Connect the fourth voltmeter to the OUTA and GND PCB pads on the EV kit. 11) Connect the SYNC and GND PCB pads on the EV kit together. 12) Turn on the DC power supply. 3) Adjust the first load to 150mA and connect to the OUT1 and PGND1 PCB pads on the EV kit. 13) Enable all loads. 4) Connect the first voltmeter to the OUT1 and PGND1 PCB pads on the EV kit. 15) Verify that the second voltmeter reads approximately 5V. 14) Verify that the first voltmeter reads approximately 3.3V. 16) Verify that the third voltmeter reads approximately 3.3V. 17) Verify that the fourth voltmeter reads approximately 5V. __________________________________________________________________ Maxim Integrated Products 2 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B Table 1. Jumper Descriptions (JU1-JU10) JUMPER JU1 JU2 JU3 JU4 JU5 JU6 JU7 SHUNT POSITION 1-2* Enables the OUT2 output of the IC. 2-3 Disables the OUT2 output of the IC. 1-2* Enables the OUT3 output of the IC. 2-3 Disables the OUT3 output of the IC. 1-2* Enables the OUTA output of the IC. 2-3 Disables the OUTA output of the IC. 1-2* Connects the FB1 pin of the IC to ground, which sets the OUT1 voltage to 3.3V. 2-3 Connects the FB1 pin of the IC to the voltage-divider of R11 and R12. Users must install appropriate feedback resistors to adjust the voltage between 1.22V and 5V. 1-2* Connects the FB2 pin of the IC to ground, which sets the OUT2 voltage to 5V. 2-3 Connects the FB2 pin of the IC to the voltage-divider of R13 and R16. Users must install appropriate feedback resistors to adjust the voltage between 1.22V and 5V. 1-2* Connects the FB3 pin of the IC to ground, which sets the OUT3 voltage to 3.3V. 2-3 Connects the FB3 pin of the IC to the voltage-divider of R14 and R15. Users must install appropriate feedback resistors to adjust the voltage between 1.22V and 8V. 1-2* Uses LED D5 to indicate that the output of the converter (DC-DC2) is in the correct regulation range. Open JU8 1-2* Open JU9 JU10 DESCRIPTION 1-2* Open 1-2* Open Disables LED D5. The PG2 signal can be monitored at the PG2 PCB pad on the EV kit. Uses LED D2 to indicate that the output of the converter (DC-DC3) is in the correct regulation range. Disables LED D2. The PG3 signal can be monitored at the PG3 PCB pad on the EV kit. Uses LED D3 to indicate that the output of the LDO is in the correct regulation range. Disables LED D3. The PGA signal can be monitored at the PGA PCB pad on the EV kit. Uses LED D4 to indicate that the output of the converter (DC-DC1) is in the correct regulation range. Disables LED D4. The POR signal can be monitored at the PORB PCB pad on the EV kit. *Default position. Detailed Description of Hardware The MAX16920B EV kit is an assembled and tested PCB used to evaluate the MAX16920B power-management IC for automotive radios, containing three step-down converters, one linear regulator, and an overvoltageprotection block. DC-DC1 Step-Down Converter The output voltage of the DC-DC1 step-down converter is set to 3.3V and can be accessed from the OUT1 PCB pad on the EV kit. The output voltage can be adjusted from 1.22V to 5V by placing a shunt in the 2-3 position on jumper JU4 and selecting the appropriate resistor values for R11 and R12. A lit LED (D4) indicates that the output of DC-DC1 is in the correct regulation range. DC-DC2 Step-Down Converter The output voltage of the DC-DC2 step-down converter is set to 5V and can be accessed from the OUT2 PCB pad on the EV kit. The output voltage can be adjusted from 1.22V to 5V by placing a shunt in the 2-3 position on jumper JU5 and selecting the appropriate resistor values for R13 and R16. To enable DC-DC2, place a shunt in the 1-2 position on jumper JU1. To disable DC-DC2, place a shunt in the 2-3 position on JU1. A lit LED (D5) indicates that the output of DC-DC2 is in the correct regulation range. DC-DC3 Step-Down Converter The output voltage of the DC-DC3 step-down converter is set to 3.3V and can be accessed from the OUT3 PCB pad on the EV kit. The output voltage can be adjusted from 1.22V to 8V by placing a shunt in the 2-3 position on jumper JU6 and selecting the appropriate resistor values for R14 and R15. To enable DC-DC3, place a shunt in the 1-2 position on jumper JU2. To disable DC-DC3, place a shunt in the 2-3 position on JU2. A lit LED (D2) indicates that the output of DC-DC3 is in the correct regulation range. __________________________________________________________________ Maxim Integrated Products 3 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B LDOA The output voltage on the linear regulator (LDOA) is set at 5V and can be accessed from the OUTA PCB pad on the EV kit. The output can be enabled or disabled by placing a shunt in the appropriate position on jumper JU3 (see Table 1). To enable LDOA, place a shunt in the 1-2 position on JU3. To disable LDOA, place a shunt in the 2-3 position on JU3. LED D3 indicates that the output of LDOA is in the correct regulation range. SYNC The IC provides a fixed 2.2MHz switching frequency when the SYNC PCB pad on the EV kit is connected to ground. For external synchronization, apply a clock signal between 1.8MHz to 2.4MHz at the SYNC PCB pad on the EV kit. Voltage Output (UVO) UVO is an active-low voltage output to monitor the input voltage and is accessible through the UVOB PCB pad on the EV kit. The UVO signal is pulled low by the IC when the VIN falls below 7V. Overtemperature Output (OT) OT is an active-low overtemperature output and is accessible through the OTB PCB pad on the EV kit. The OT signal is pulled low by the IC and disables all converters except for DC-DC1 if the die temperature exceeds the thermal-shutdown temperature. Evaluating the MAX16920A Included with the EV kit are capacitors and inductors to evaluate the MAX16920A. Replace C10, C11, and C12 with the 22FF capacitors, C20 with the 47FF capacitor, L1 with the 47FH inductor, L2 with the 22FH inductor, and L3 with the 10FH inductor. __________________________________________________________________ Maxim Integrated Products 4 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B Figure 1. MAX16920B EV Kit Schematic __________________________________________________________________ Maxim Integrated Products 5 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B 1.0" Figure 2. MAX16920B EV Kit Component Placement Guide-- Component Side 1.0" Figure 3. MAX16920B EV Kit PCB Layout--Component Side 1.0" Figure 4. MAX16920B EV Kit PCB Layout--Inner Layer 2 __________________________________________________________________ Maxim Integrated Products 6 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B 1.0" Figure 5. MAX16920B EV Kit PCB Layout--Inner Layer 3 1.0" Figure 6. MAX16920B EV Kit PCB Layout--Solder Side 1.0" Figure 7. MAX16920B EV Kit Component Placement Guide-- Solder Side __________________________________________________________________ Maxim Integrated Products 7 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B Ordering Information PART TYPE MAX16920BEVKIT+ EV Kit +Denotes lead(Pb)-free and RoHS compliant. __________________________________________________________________ Maxim Integrated Products 8 MAX16920B Evaluation Kit Evaluates: MAX16920A/MAX16920B Revision History REVISION NUMBER REVISION DATE 0 1/11 DESCRIPTION Initial release PAGES CHANGED -- Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 2011 Maxim Integrated Products 9 Maxim is a registered trademark of Maxim Integrated Products, Inc. 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