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| 19-2700; Rev 0; 12/02 MAX1534 Evaluation Kit General Description The MAX1534 evaluation kit (EV kit) is a fully assembled and tested surface-mount circuit board that demonstrates the MAX1534 triple-output keep-alive power supply IC. The MAX1534 integrates one high-performance step-down converter and two low-dropout regulators (LDOs). The step-down converter is configured for 5.0V and provides up to 500mA. The first and second LDOs are configured for 3.3V and 1.8V at currents up to 160mA each. Power management functions include an accurate shutdown input and power-OK (POK) output. The EV kit also allows for adjustable output voltages by including extra pads for feedback resistors. o Triple-Output Power Supply 5.0V at 500mA (typ) 3.3V at 160mA 1.8V at 160mA o Integrated Power MOSFETs o 4.5V to 24V Input Supply Range o Adjustable Inductor Current Limit o Fixed or Adjustable Outputs o Power-OK (POK) Output o 3.5A Shutdown Supply Current (typ) o Surface-Mount Construction o Fully Assembled and Tested Features Evaluates: MAX1534 Ordering Information PART MAX1534EVKIT TEMP RANGE IC PACKAGE 0C to +70C 16 Thin QFN 4mm x 4mm Component List DESIGNATION C1 QTY 1 DESCRIPTION 10F 20%, 25V X7R ceramic capacitor (1812) TDK C4532X7R1E106M 47F 20%, 6.3V X5R ceramic capacitor (1210) TDK C3225X5R0J476M 2.2F 20%, 10V X5R ceramic capacitors (0805) TDK C2012X5R1A225M 0.01F 20%, 25V X7R ceramic capacitor (0402) TDK C1005X7R1E103M 1A, 30V, Schottky diode (SMA) Nihon EP10QY03 DESIGNATION L1 R1-R6 R7 R8, R9 R10, R11 JU1, JU2 JU3 JU4 U1 None None QTY 1 0 1 0 0 2 0 1 1 3 1 DESCRIPTION 15H, 1A inductor Sumida CDRH6D38-150 Not installed (0603) 100k 5% resistor (0603) Not installed (2010) Not installed (0805) Jumpers, SIP-3, 3-pin headers (SIP-3) Not installed (SIP-3) Jumper, 2 x 3 pin header MAX1534ETE (16-pin thin QFN) Shunts MAX1534 PC board C2 1 C3, C5, C6 3 C4 1 D1 1 Component Suppliers SUPPLIER Nihon Sumida TDK PHONE 81-33343-3411 847-545-6700 847-803-6100 FAX 81-33342-5407 847-545-6720 847-390-4405 WEBSITE www.niec.co.jp www.sumida.com www.component.tdk.com Note: Please indicate that you are using the MAX1534 when contacting these component suppliers. ________________________________________________________________ Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at 1-888-629-4642, or visit Maxim's website at www.maxim-ic.com. MAX1534 Evaluation Kit Evaluates: MAX1534 Quick Start Recommended Equipment * One variable DC power supply capable of supplying between 4.5V and 24V at 1A * Five voltmeters nal feedback network. The MAX1534 also features two additional internal LDOs that are set to 1.8V and 3.3V with output currents of 160mA each. The outputs of the buck converter and the LDO regulators can be adjusted by adding feedback resistors R1 through R6. For instructions on adjusting the output voltage, see the Adjusting the Output Voltages section. The default configuration of the MAX1534 EV kit drives the input to the LDOs with the output of the buck converter (OUT3). If the output of the buck converter (OUT3) is configured lower than the outputs of the LDOs (OUT1 or OUT2), LDOIN must be driven by a separate source (see Using an Alternative LDO Source Supply). Procedure The MAX1534 EV kit is fully assembled and tested. Follow the steps below to verify board operation. Do not turn on the power supply until all connections are completed: 1) Set the variable DC power supply to any voltage between 4.5V and 24V. 2) Ensure that the variable DC power supply is turned off. 3) Ensure that shunts are placed across pins 1-2 of jumpers JU1 and JU2. 4) Ensure that a shunt is placed across pins 3-4 of jumper JU4. 5) Connect a voltmeter across the IN pad and the GND pad (located beside the OUT3 pad) to monitor the input voltage. 6) Connect a voltmeter across the OUT1 pad and the GND pad (located beside the OUT1 pad) to monitor the OUT1 voltage (3.3V). 7) Connect a voltmeter across the OUT2 pad and the GND pad (located beside the LDOIN pad) to monitor the OUT2 voltage (1.8V). 8) Connect a voltmeter across the OUT3 pad and the GND pad (located below the OUT3 pad) to monitor the OUT3 voltage (5.0V). 9) Connect a voltmeter across the POK pad and the GND pad (located above the LDOIN pad) to monitor the POK voltage. 10) Turn on the variable DC power supply. 11) Verify that the voltage at OUT1 is 3.3V. 12) Verify that the voltage at OUT2 is 1.8V. 13) Verify that the voltage at OUT3 is 5.0V. 14) Verify that the voltage at POK is 5.0V. Shutdown Control The MAX1534 has an active-low shutdown control input that enables/disables all three power outputs. Jumper JU1 selects the circuit operating modes: shutdown or normal operation. Remove the shunt when driving SHDN with an external signal. See Table 1 for shunt positions. The MAX1534 EV kit can be programmed to shut down Table 1. Shutdown Selection JUMPER SHUNT POSITION SHDN PIN DESCRIPTION JU1 1-2* MAX1534 outputs Connected enabled. POK is high to IN impedance when all outputs are in regulation. MAX1534 outputs Connected disabled. POK is low to GND impedance. JU1 2-3 *Default configuration: JU1 (1-2). when the input voltage drops below a desired minimum voltage (VIN(MIN)) by installing resistors R10 and R11, and removing the shunt on JU1. Calculate these resistor values using the following equation: VIN (MIN) R11 = R10 - 1 VSHDN where: VSHDN = 1.0V R10 = 100k VIN(MIN) = desired minimum input voltage Detailed Description The MAX1534 EV kit provides multiple output voltages (5.0V, 3.3V, and 1.8V) from a 4.5V to 24.0V input. The buck-converter section of the EV kit delivers up to 500mA and operates up to 100% duty cycle. The EV kit utilizes the MAX1534 IC, and the circuit regulates the buck converter output voltage to 5.0V without an exter- 2 _______________________________________________________________________________________ MAX1534 Evaluation Kit Adjustable Inductor Current Limit The MAX1534 EV kit can operate at different current limits. Jumper JU2 selects the MAX1534's maximum internal switch current limit. The EV kit's default setting allows a maximum 1000mA internal switch current. To change the switch current limit to 500mA, move the shunt on jumper JU2 to pins 2-3. Changing the current limit requires inductor L1 and output capacitor C2 to be replaced. Refer to the Recommended Components table in the MAX1534 data sheet. Remove the shunt when driving ILIM with an external signal. See Table 2 for shunt positions. Table 4. PRESET Shunt Positions JUMPER JU3 JU3 SHUNT POSITION 1-2 2-3* PRESET PIN Connected to IN Connected to GND DESCRIPTION Adjustable output mode Fixed output mode Evaluates: MAX1534 *Default configuration: JU3 (2-3) shorted by PC board trace. Table 2. Inductor Current-Limit Selection JUMPER SHUNT POSITION 1-2* 2-3 ILIM PIN Connected to IN Connected to GND INDUCTOR CURRENT LIMIT (mA) 1000 500 between pins 2-3 of JU3, shorting pins 1-2 of JU3, and installing resistors R1 through R6. Refer to the instructions below for resistor selection. See Table 4 for PRESET shunt positions. To adjust the output voltages of the MAX1534 EV kit, follow the directions below: 1) Cut the trace between pins 2 and 3 of jumper JU3. 2) Install a 3-pin header in position JU3. 3) Place a shunt across pins 1 and 2 of jumper JU3. 4) Cut the trace between the pads of resistor R1, R4, and R6. 5) Install resistors in locations R1 through R6 (the resistor values are calculated using the following equations). To set the output voltage on OUT1, choose R3 as follows: V R3 = R4 x OUT1 - 1 VFB1 where: VOUT1 = desired output voltage at OUT1 (from 1V to LDOIN) VFB1 = 1.00V R4 = 100k To set the output voltage on OUT2, choose R5 as follows: V R5 = R6 x OUT2 - 1 VFB2 where: VOUT2 = desired output voltage at OUT2 (from 1V to LDOIN) VFB2 = 1.00V R6 = 100k JU2 JU2 *Default configuration: JU2 (1-2). Selecting the POK Active-High Output Voltage The POK pin of the MAX1534 indicates the status of the output voltages. Monitor this voltage at the POK pad. The POK pin is pulled up with a 100k resistor through jumper JU4 to one of the three outputs. See Table 3 for shunt positions. Table 3. POK Output Selection JUMPER JU4 JU4 JU4 SHUNT POSITION 1-2 3-4* 5-6 DESCRIPTION POK pin pulled up to OUT2 (1.8V default) POK pin pulled up to OUT3 (5.0V default) POK pin pulled up to OUT1 (3.3V default) *Default configuration: JU4 (3-4). Adjusting the Output Voltages The MAX1534 EV kit circuit is configured to regulate the output voltages to preset values by connecting the PRESET pin to ground. The outputs can be adjusted to different voltages by cutting open the PC board short _______________________________________________________________________________________ 3 MAX1534 Evaluation Kit Evaluates: MAX1534 OUT1 OUT1 IN C1 10F 1 JU1 R10 OPEN 4 15 R9 SHORT (PC TRACE) 10 C3 2.2F 5 8 R8 SHORT (PC TRACE) D1 OUT3 L1 15H C2 47F R1 SHORT (PC TRACE) OUT3 JU3 2 3 SHDN 1 JU2 2 3 1 SHORT 2 (PC TRACE) 3 ILIM 11 R3 OPEN C5 2.2F 13 OUT2 R4 SHORT (PC TRACE) 9 R5 OPEN C6 2.2F 14 OUT1 IN IN 6 7 R11 OPEN 1 GND GND FB1 U1 SHDN OUT2 MAX1534 OUT2 ILIM PRESET FB2 GND LDOIN PULLUP 1 JU4 2 3 4 5 6 R6 SHORT (PC TRACE) OUT3 PULLUP POK LDOIN OUT2 PULLUP OUT1 R7 100k 2 12 C4 0.01F POK BP GND 3 LX LX GND FB3 16 R2 OPEN Figure 1. MAX1534 EV Kit Schematic To set the output voltage on OUT3, choose R1 as follows: V R1 = R2 x OUT3 - 1 VFB3 where: VOUT3 = desired output voltage at OUT3 (from 1V to IN) VFB3 = 1.00V R2 = 100k Note: If OUT3 is set higher than 5.5V, OUT3 must be disconnected from LDOIN and POK. The voltage at OUT3 must be at least 240mV higher than the voltages at OUT1 and OUT2. If the voltage at OUT3 is lower than either of the voltages at OUT1 and OUT2, the input to the LDOs must be driven by a separate power source (see Using an Alternative LDO Source Supply section). Note: Adjustable operation may require replacement of capacitors with higher voltage ratings. Note: Do not pull up POK above LDOIN. 4 Using an Alternative LDO Source Supply The buck-converter output (OUT3) is the default power source for the two LDOs. If the output voltages at either OUT1 or OUT2 are reconfigured for a voltage greater than OUT3, the input to the MAX1534 internal LDOs must be driven by an external source. To drive the LDOs with an external source, follow the directions below: 1) Cut the PC board trace shorting the pads of resistor R8. 2) Connect an external 0.5A source to the pads marked LDOIN and GND. 3) Ensure that the external source is greater than 2.5V, at least 240mV higher than OUT1 or OUT2 (whichever is greater), and does not exceed 5.5V. _______________________________________________________________________________________ MAX1534 Evaluation Kit Evaluates: MAX1534 Figure 2. MAX1534 EV Kit Component Placement Guide-- Component Side Figure 3. MAX1534 EV Kit PC Board Layout--Component Side Figure 4. MAX1534 EV Kit PC Board Layout--Solder Side Figure 5. MAX1534 EV Kit Component Placement Guide-- Solder Side 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 _____________________ 5 (c) 2002 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products. |
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