General Description The MAX469 evaluation kit (EV kit) is a fully assembled and tested circuit board that demonstrates the MAX469 overvoltage-, undervoltage-, and overcurrentprotection device. The EV kit features an external p-channel MOSFET and LED input and output reading. The EV kit comes with the MAX469ATP+ installed, but can also be used to evaluate the pin-compatible MAX469 and MAX469 devices with IC replacement of U. Request samples from Maxim when ordering the EV kit. Benefits and Features 5.5V to 58V Operating Voltage Range External p-channel MOSFET Proven PCB Layout Fully Assembled and Tested Ordering Information appears at end of data sheet. Quick Start Required Equipment MAX469 EV kit 40V DC power supply 5V DC power supply Multimeter Procedure The EV kit is fully assembled and tested. Follow the steps below to verify board operation: ) Verify that all jumpers are in their default positions. ) Set the 40V DC power supply to 0V and connect to V (TP). ) Connect the 5V DC power supply to VIO (TP). 4) Turn on both power supplies. Verify that LED is on, and FLAG (TP5) is 0V. 5) Increase voltage on the DC power supply to TP and verify that LED turns on when voltage reaches ~.4V. Also check that voltage on V (TP5) is ~.4V and FLAG (TP5) is 5V. 6) Increase voltage on the DC power supply to TP and verify that LED turns off when voltage reaches ~6V. Also check that voltage on V (TP5) goes down and FLAG (TP5) is 0V. 7) Decrease voltage on the DC power supply to TP and verify that LED turns on when voltage reaches ~5V. Also check that voltage on V (TP5) is ~5V and FLAG (TP5) is 5V. 8) Decrease voltage on the DC power supply to TP and verify that LED turns on when voltage reaches ~V. Also check that voltage on V (TP5) goes down and FLAG (TP5) is 0V. 9-607; Rev 0; /4
Detailed Description of Hardware The MAX469 EV kit is a fully assembled and tested circuit board demonstrating the MAX469 overvoltage-, undervoltage-, and overcurrent-protection device in a 0-pin surface-mount TQFN-EP package. The EV kit also features LEDs to indicate the power for input and output (see Table ). Table. LED Indicator (LED, LED) LED LED LED LED is on when is powered LED is on when is powered Table. Enable Inputs Jumper Settings (JU, JU) Enable Inputs (EN, ) Use jumpers JU and JU to enable the device (see Table for jumper settings). Overvoltage-Lockout Threshold (OVLO) Use jumpers JU and JU5 to select internal or external OVLO threshold. Install a shunt on either JU or JU5, but not both at the same time (see Table 4 for jumper settings). Undervoltage-Lockout Threshold (UVLO) Use jumpers JU4 and JU6 to select internal or external UVLO threshold. Install a shunt on either JU4 or JU6, but not both at the same time (see Table 5 for jumper settings). Table 4. OVLO Threshold Jumper Settings (JU, JU5) JU JU - is connected to V -* is connected to EN is high EN is low Table. Enable Inputs Switch Status EN SWITCH STATUS 0 0 On 0 On 0 Off On JU JU5 * Not installed OVLO is connected to ground; nternal OVLO threshold is used (do not install JU5) OVLO is open OVLO is connected to external voltage-divider; use R/R or R6 to set overvoltage threshold (do not install JU) OVLO is open Table 5. UVLO Threshold Jumper Settings (JU4, JU6) JU4 JU6 * Not installed UVLO is connected to ground; internal UVLO threshold is used (do not install JU6) UVLO is open UVLO is connected to external voltage-divider; use R4/R5 or R7 to set undervoltage threshold (do not install JU4) UVLO is open Maxim Integrated
Current-Limit Threshold Use jumpers JU7 JU0 to use different resistors to program the current-limit threshold (see Table 6 for jumper settings). Reverse-Current Blocking Use jumper JU to enable or disable reverse-current blocking (see Table 7 for jumper settings). Table 6. Current-Limit Threshold Jumper Settings (JU7 JU0) JU7 JU8 JU9 JU0 * Not installed SETI is connected to ground with a 6kΩ resistor (~0.6A current limit) SETI is not connected to ground with a 6kΩ resistor SETI is connected to ground with a kω resistor (~.9A current limit) SETI is not connected to ground with a kω resistor SETI is connected to ground with a 6.8kΩ resistor (~5.5A current limit) SETI is not connected to ground with a 6.8kΩ resistor SETI is connected to ground with a 00kΩ potentiometer (programmable current limit) SETI is not connected to ground with a 00kΩ potentiometer Current-Limit Mode Use jumpers JU4 and JU5 to select the current-limit mode (see Table 8 for jumper settings). Table 7. Reverse-Current Blocking Jumper Settings (JU) JU - RIPEN is low (disable) -* RIPEN is high (enable) Table 8. Reverse-Current Blocking Jumper Settings (JU4, JU5) JU4 JU5 * Not installed CLTS is low CLTS is high CLTS is low CLTS is high Table 9. Current-Limit Type Select (CLTS, CLTS) CLTS CLTS CURRENT-LIMIT TYPE 0 0 Latchoff mode 0 Autoretry mode 0 Continuous mode Continuous mode Maxim Integrated
Component List DESIGNATION QTY C, C5 C, C4 C D D µf ±0%, 00V X7R ceramic capacitors (06) 0µF ±0%, 6V radial capacitors µf ±0%, 6.V X5R ceramic capacitor (060) 50V, A diode ON Semi MURA05TG TVS 6V diode SMCJ6CA JU, JU -pin single-row headers JU JU0, JU, JU4, JU5 LED LED Q -pin single-row headers Green LED Lumex SML-LX06GW-TR Yellow LED Lite-On LTST-C50KSKT 60V, 50A p-channel MOSFET Vishay SUD50P06-5 R 0kΩ ± resistor (0805) R R5 0 Not installed, resistors (0805) R6, R7 MΩ potentiometers Bourns 96W--05LF R8 6kΩ ± resistor (0805) R9 kω ± resistor (0805) DESIGNATION QTY R0 6.8kΩ ± resistor (0805) R R, R, R5, R6 *EP = Exposed pad. 00kΩ potentiometer Bourns 96W--04LF 4 0kΩ ± resistors (0805) R4 00kΩ ± resistor (0805) R7, R8.7kΩ ± resistors (0805) R9, R0 0Ω resistors (0805) TP, TP, TP5, TP6, TP7, TP8 TP, TP4, TP7, TP8, TP TP7 TP9, TP0, TP4, TP6, TP0 TP TP, TP5, TP9 6 Red test points 0 Black test points 5 Yellow test points 5 White test points TP Orange test point U 0 Shunts Overvoltage-, undervoltage-, and overcurrent-protection device (0 TQFN-EP*) Maxim MAX469ATP+ PCB: MAX469 EVKIT Component Suppliers SUPPLIER PHONE WEBSITE Bourns, Inc. 408-496-0706 www.bourns.com Lite-On, Inc. 408-946-487 www.us.liteon.com Lumex North America 800-78-5666 www.lumex.com ON Semiconductor 60-44-6600 www.onsemi.com Vishay Americas 40-56-6866 www.vishay.com Note: Indicate that you are using the MAX469 when contacting these component suppliers. Maxim Integrated 4
Maxim Integrated 5 Figure. MAX469 EV Kit Schematic -DISABLE ENB/DISB RIPEN ATTACH UVL0 ATTACH OVL0 VIO-ENABLE ENABLE CLOSED-HIGH OPEN-LOW LED SML-LX06GW-TR JU5 TP CLTS 7 4 LED.7K R8 0UF R TP TP RIPEN R5 0K R4 JU8 TP0 R OPEN JU6 LTST-C50KSKT TP8 TP9 JU4 EN 6 8 9 0 TP 0UF GREEN TP 4 8 MAX469ATP+ SUD50P06-5 V TP4 C UF R9 JU JU M 6 7 R5 OPEN R7 0 0 R0 FLAG FLAG TP5 R8 JU7 C4 D TP5 JU4 TP TP TP4 TP6 TP5 TP7 TP7 TP8 TP4 JU 0K C UF 00K R TP VIO JU V EN V TP6 0K UF C5 YELLOW 5 U 9 R6 0K CLTS 0 R9.7K R7 Q EN 5 TP7 FLAG C TP V D SMCJ6CA GP TP6 R0 6K K 6.8K UVL0 OPEN R4 OVL0 TP9 JU5 OPEN R R6 M R 0K R 00K JU9 JU0 TP0 SETI EP EN CLTS CLTS RIPEN UVLO OVLO FLAG SETI GP + + G D S
Figure. MAX469 EV Kit Component Placement Guide Component Side Figure. MAX469 EV Kit PCB Layout Component Side Maxim Integrated 6
Figure 4. MAX469 EV Kit PCB Layout Internal Layer Figure 5. MAX469 EV Kit PCB Layout Internal Layer Maxim Integrated 7
Ordering Information PART MAX469EVKIT# #Denotes RoHS compliant. TYPE EV Kit Figure 6. MAX469 EV Kit PCB Layout Solder Side Maxim Integrated 8
Revision History REVISION NUMBER REVISION DATE PAGES CHANGED 0 /4 Initial release For pricing, delivery, and ordering information, please contact Maxim Direct at -888-69-464, or visit Maxim Integrated s website at. Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc. 04 Maxim Integrated Products, Inc. 9