MAX17602EVKIT#

19-6359; Rev 0; 6/12 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 General Description The MAX17600–MAX17605 evaluation kits (EV kits) provide a proven design to evaluate the MAX17600– MAX17605 dual, high-speed, low-side MOSFET drivers that can source/sink up to a 4A peak current. Each EV kit provides four separate designs to evaluate four different IC packages. The EV kits use a 4V to 14V (MAX17600/ MAX17601/MAX17602), or a 6V to 14V (MAX17603/ MAX17604/MAX17605) input supply. Installed on the EV kits are the MAX17600–MAX17605 (in 8-pin TDFN, FMAXM, and SO packages). Benefits and Featres S 4V to 14V Input Range (MAX17600/MAX17601/MAX17602) S 6V to 14V Input Range (MAX17603/MAX17604/ MAX17605) S Sources/Sinks Up to 4A Peak Current S Enable Inputs S TTL (MAX17600/MAX17601/MAX17602) or High Noise Margin (HNM) (MAX17603/MAX17604 / MAX17605) Logic-Level Inputs with Hysteresis for Noise Immunity S Evaluates Four Different Packages S Proven PCB Layout S Fully Assembled and Tested Ordering Information/Selector Guide appears at end of data sheet. Component List DESIGNATION QTY DESCRIPTION C1, C4, C7, C10 4 2.2FF Q10%, 25V X7R ceramic capacitors (1206) Murata GRM31MR71E225M C2, C3, C5, C6, C8, C9, C11, C12 8 0.01FF Q10%, 50V X7R ceramic capacitors (0603) Murata GRM188R71H103K 4 10FF, 25V aluminum electrolytic SMD capacitors (4mm x 5.8mm) Panasonic EEEFK1E100R C13–C16 DESIGNATION QTY JU1–JU8 8 2-pin headers, 0.1in centers DESCRIPTION U1 1 See the EV Kit-Specific Component List U2 1 See the EV Kit-Specific Component List U3 1 See the EV Kit-Specific Component List U4 0 Not installed (8 TDFN-EP*) — 8 Shunts — 1 PCB: MAX17600/1/2/3/4/5 EVALUATION KIT *EP = Exposed pad. FMAX is a registered trademark of Maxim Integrated Products, Inc. __________________________________________________________________ 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. MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 EV Kit-Specific Component List PART MAX17600EVKIT# MAX17601EVKIT# MAX17602EVKIT# REFERENCE DESIGNATOR DESCRIPTION U1 MAX17600ATA+ Dual MOSFET driver (8 TDFN-EP*) U2 MAX17600ASA+ Dual MOSFET driver (8 SO) U3 REFERENCE DESIGNATOR DESCRIPTION U1 MAX17603ATA+ Dual MOSFET driver (8 TDFN-EP*) U2 MAX17603ASA+ Dual MOSFET driver (8 SO) MAX17600AUA+ Dual MOSFET driver (8 FMAX-EP*) U3 MAX17603AUA+ Dual MOSFET driver (8 FMAX-EP*) U1 MAX17601ATA+ Dual MOSFET driver (8 TDFN-EP*) U1 MAX17604ATA+ Dual MOSFET driver (8 TDFN-EP*) U2 MAX17601ASA+ Dual MOSFET driver (8 SO) U2 MAX17604ASA+ Dual MOSFET driver (8 SO) U3 MAX17601AUA+ Dual MOSFET driver (8 FMAX-EP*) U3 MAX17604AUA+ Dual MOSFET driver (8 FMAX-EP*) U1 MAX17602ATA+ Dual MOSFET driver (8 TDFN-EP*) U1 MAX17605ATA+ Dual MOSFET driver (8 TDFN-EP*) U2 MAX17602ASA+ Dual MOSFET driver (8 SO) U2 MAX17605ASA+ Dual MOSFET driver (8 SO) U3 MAX17602AUA+ Dual MOSFET driver (8 FMAX-EP*) U3 MAX17605AUA+ Dual MOSFET driver (8 FMAX-EP*) PART MAX17603EVKIT# MAX17604EVKIT# MAX17605EVKIT# *EP = Exposed pad. Component Suppliers SUPPLIER PHONE WEBSITE Murata Electronics North America, Inc. 770-436-1300 www.murata-northamerica.com Panasonic Corp. 800-344-2112 www.panasonic.com Note: Indicate that you are using the MAX17600–MAX17605 when contacting these component suppliers. __________________________________________________________________ Maxim Integrated Products  2 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 Quick Start 3) Set the VDD1 power supply to 14V and enable its output. Required Equipment 4) Drive INA1 high and verify that the OUTA1 polarity is according to Table 2. • MAX17600–MAX17605 EV kit • 4V to 14V DC power supply Procedure 5) Drive INB1 high and verify that the OUTB1 polarity is according to Table 2. The EV kits are fully assembled and tested. Follow the steps below to verify U1 board operation. Caution: Do not turn on the power supply until all connections are completed. 6) Drive INA1 low and verify that the OUTA1 polarity is according to Table 2. 1) Verify that all jumpers are in their default positions, as shown in Table 1. 8) Repeat accordingly for the other circuits. 7) Drive INB1 low and verify that the OUTB1 polarity is according to Table 2. 2) Connect the positive terminal of the power supply to the VDD1 PCB pad and the negative terminal to the nearest GND PCB pad on the EV kit. Table 1. Jumper Descriptions (JU1–JU8) JUMPER SHUNT POSITION JU1 JU2 JU3 JU4 JU5 JU6 JU7 JU8 DESCRIPTION 1-2 Disables channel A for the TDFN-EP (3mm x 3mm) package Open* Enables channel A for the TDFN-EP (3mm x 3mm) package 1-2 Disables channel B for the TDFN-EP (3mm x 3mm) package Open* Enables channel B for the TDFN-EP (3mm x 3mm) package 1-2 Disables channel A for the SO (3.9mm x 4.9mm) package Open* Enables channel A for the SO (3.9mm x 4.9mm) package 1-2 Disables channel B for the SO (3.9mm x 4.9mm) package Open* Enables channel B for the SO (3.9mm x 4.9mm) package 1-2 Disables channel A for the FMAX-EP (3mm x 3mm) package Open* Enables channel A for the FMAX-EP (3mm x 3mm) package 1-2 Disables channel B for the FMAX-EP (3mm x 3mm) package Open* Enables channel B for the FMAX-EP (3mm x 3mm) package 1-2 Disables channel A for the TDFN-EP (2mm x 3mm) package Open* Enables channel A for the TDFN-EP (2mm x 3mm) package 1-2 Disables channel B for the TDFN-EP (2mm x 3mm) package Open* Enables channel B for the TDFN-EP (2mm x 3mm) package *Default position. Table 2. OUTA /OUTB Polarity vs. INA/INB Polarity OUTA POLARITY OUTB POLARITY MAX17600EVKIT# PART Inverting Inverting MAX17601EVKIT# Noninverting Noninverting MAX17602EVKIT# Inverting Noninverting MAX17603EVKIT# Inverting Inverting MAX17604EVKIT# Noninverting Noninverting MAX17605EVKIT# Inverting Noninverting __________________________________________________________________ Maxim Integrated Products  3 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 Detailed Description of Hardware 3) INA3/INB3 inputs control the output state for the FMAX-EP package The MAX17600–MAX17605 EV kits operate on a 4V to 14V (MAX17600/MAX17601/MAX17602) or a 6V to 14V (MAX17603/MAX17604/MAX17605) wide-input voltage range and sources/sinks 4A peak current. 4) INA4/INB4 inputs control the output state for the TDFN-EP package Enable (EN_ _) Each EV kit has four separate sets of enables to evaluate each package: 1) ENA1/ENB1 enables/disables the TDFN-EP package 2) ENA2/ENB2 enables/disables the SO package 3) ENA3/ENB3 enables/disables the FMAX-EP package 4) ENA4/ENB4 enables/disables the TDFN-EP package Input (IN_ _) Each EV kit has four separate sets of inputs to evaluate each package: Power Supply Input (VDD_) Each EV kit has four separate VDD inputs to evaluate each package: 1) VDD1 supplies power to the TDFN-EP package 2) VDD2 supplies power to the SO package 3) VDD3 supplies power to the FMAX-EP package 4) VDD4 supplies power to the TDFN-EP package Ground (GND) Each EV kit has four circuits to evaluate each package. Each circuit has its own ground plane and each GND is not connected to the GND of the nearby circuit. 1) INA1/INB1inputs control the output state for the TDFN-EP package 2) INA2/INB2 inputs control the output state for the SO package ENA1 1 ENA ENA JU1 INA1 JU2 2 INA GND GND INB1 ENB1 8 3 4 GND U1 MAX17600 MAX17601 MAX17602 MAX17603 MAX17604 MAX17605 OUTA OUTA1 7 C2 0.01µF VDD VDD1 6 C1 2.2µF INB OUTA EP GND C13 10µF GND OUTB1 7 C3 0.01µF GND NOTE: TDFN–EP PACKAGE Figure 1a. MAX17600–MAX17605 EV Kit Schematic (U1) __________________________________________________________________ Maxim Integrated Products  4 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 ENA2 1 ENA ENB JU3 INA2 JU4 2 INA GND GND 3 INB2 ENB2 8 4 GND U2 MAX17600 MAX17601 MAX17602 MAX17603 MAX17604 MAX17605 OUTA OUTA2 7 C5 0.01µF VDD GND VDD2 6 C4 2.2µF C14 10µF INB OUTB GND OUTB2 5 C6 0.01µF GND NOTE: SO PACKAGE Figure 1b. MAX17600–MAX17605 EV Kit Schematic (U2) ENA3 1 ENA ENB JU5 INA3 JU6 2 INA GND GND INB3 ENB3 8 3 4 GND U3 MAX17600 MAX17601 MAX17602 MAX17603 MAX17604 MAX17605 OUTA OUTA3 7 C8 0.01µF VDD VDD3 6 C7 2.2µF INB OUTB EP GND C15 10µF GND OUTB3 5 C9 0.01µF GND NOTE: µMAX–EP PACKAGE Figure 1c. MAX17600–MAX17605 EV Kit Schematic (U3) __________________________________________________________________ Maxim Integrated Products  5 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 ENA4 1 ENA ENB JU7 INA4 JU8 2 INA GND GND INB4 ENB4 8 3 4 GND U4 MAX17600 MAX17601 MAX17602 MAX17603 MAX17604 MAX17605 OUTA OUTA4 7 C11 0.01µF VDD VDD4 6 C10 2.2µF INB OUTB EP GND C16 10µF GND OUTB4 5 C12 0.01µF GND NOTE: TDFN–EP PACKAGE Figure 1d. MAX17600–MAX17605 EV Kit Schematic (U4) __________________________________________________________________ Maxim Integrated Products  6 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 1.0” Figure 2. MAX17600–MAX17605 EV Kit Component Placement Guide—Component Side 1.0” Figure 3. MAX17600–MAX17605 EV Kit PCB Layout— Component Side __________________________________________________________________ Maxim Integrated Products  7 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 1.0” Figure 4. MAX17600–MAX17605 EV Kit PCB Layout—Solder Side __________________________________________________________________ Maxim Integrated Products  8 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 Ordering Information/Selector Guide TYPE INPUT LOGIC TYPE OUTA POLARITY OUTB POLARITY MAX17600EVKIT#* PART EV Kit TTL Inverting Inverting MAX17601EVKIT# EV Kit TTL Noninverting Noninverting MAX17602EVKIT# EV Kit TTL Inverting Noninverting MAX17603EVKIT# EV Kit HNM Inverting Inverting MAX17604EVKIT# EV Kit HNM Noninverting Noninverting MAX17605EVKIT# EV Kit HNM Inverting Noninverting #Denotes RoHS compliant. *Future product—contact factory for availability. __________________________________________________________________ Maxim Integrated Products  9 MAX17600–MAX17605 Evaluation Kits Evaluate: MAX17600–MAX17605 Revision History REVISION NUMBER REVISION DATE 0 6/12 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, Inc. 160 Rio Robles, San Jose, CA 95134 USA 1-408-601-1000 ©  2012 Maxim Integrated Products 10 Maxim is a registered trademark of Maxim Integrated Products, Inc.