MAX78 Evaluation Kit Evaluates: MAX78 General Description The MAX78 evaluation kit (EV kit) is a fully assembled and tested circuit for evaluating the MAX78 USB Type-C charger. Refer to the MAX78 IC data sheet for detailed information regarding the operation and features of the devices. For additional information, please refer to the MAX78 user guide. Features RoHS Compliant Proven PCB Layout Full Assembled and Tested IC Serial Interface Ordering Information appears at end of data sheet. Detailed Description of Hardware Jumper Descriptions Table details the functions of the configurable jumper headers on the EV kit board. The headers are standard 0.in spacing, 0.05in posts. Settings in Table marked with an asterisk ( * ) indicate default placements. Digital Inputs and Outputs The bias for the logic inputs and open-drain indicators is provided from the VMC pin of J connector. Install jumper between - pins of JU5 to use VMC for the supply. The CDIR, OK, and INT open-drain outputs use supply for their respective pullup voltages. Jumpers JU, JU, JU connect the indicator LED, LED, and LED to these open-drain flags. Based on the Type-C state machine output, BVCEN pushpull output controls the external load switch Q. When BVCEN is high, Q connects VCONN to the external supply source applied at TP9. FLTIN and FSUS are digital inputs set by JU7 and JU8. FLTIN is the charger fault input. If pulled low, FLTIN forces the charger into a fault state. FSUS is the force suspend input. If pulled high, it forces the input current limit to 0A. 9-0007; Rev 0; 9/7
MAX78 Evaluation Kit Evaluates: MAX78 Table. Jumper Functions and Default Settings JUMPER SETTINGS DESCRIPTION JU INT JU JU CDIR JU OK JU5 JU6 SET JU7 FLTIN JU8 FSUS JU9 SCL JU0 VTPU JU TPU JU THM JU SDA Open Disconnect INT output from indicator LED Closed* Connect INT output to indicator LED Open Disconnect from Q NVP PFET -*, -* Connect to Q NVP PFET Open Disconnect CDIR output from indicator LED Closed* Connect CDIR output to indicator LED Open Disconnect OK output from indicator LED. Closed* Connect OK output to indicator LED - Connect to pin of JU5 -* Connect to VMC of J5 - Connect SET to R (0k) -* Connect SET to R (Potentiometer) Open Disconnect FLTIN from R and PB Closed* Connect FLTIN to R and PB Open Disconnect FSUS from Closed* Connect FSUS to Open Disconnect SCL from R9 (Pullup) Closed* Connect SCL to R9 (Pullup) Open Disconnect VTPU from V CCINT Closed* Connect VTPU to V CCINT Open Disconnect THM from R5 Closed* Connect THM to TPU through R5 Open Disconnect THM from R6 (Potentiometer) Closed* Connect THM to R6 (Potentiometer) Open Disconnect SDA from R8 (Pullup) Closed* Connect SDA to R8 (Pullup) *Default position. Maxim Integrated
MAX78 Evaluation Kit Evaluates: MAX78 USB Interface The MAX78 provides an integrated USB.0 full-speed interface (Mbps). This interface is accessed through the USB Type-C connector J and USB Type-A connector J_USB_A. VBUS_C of J is also a power source for U. I/O Interface Connector The EV kit allows accessing the IC interface of the MAX78 through the J5 PMOD connector. Please refer to Table for the connectors pin description. Table. PMOD Connector J5 PIN MAX78 DESCRIPTION N.C. Not Connected N.C. Not Connected SCL I C Serial Clock Input SDA I C Serial Data Input/Output 5 Ground 6 VMC.V Digital Input/Output Supply 7 N.C. Not Connected 8 N.C. Not Connected 9 N.C. Not Connected 0 N.C. Not Connected Ground VMC.V Digital Input/Output Supply Ordering Information PART MAX78EVKIT# #Denotes RoHS compliant. TYPE EV Kit Maxim Integrated
MAX78 Evaluation Kit Evaluates: MAX78 MAX78 EV Kit Bill of Materials ITEM REF_DES QTY MFG PART # MANUFACTURER VALUE DESCRIPTION COMMENTS C, C5-C9 6 GCJ88R7H0KA; GCM88R7H0K; CGAEX7RH0K080AA MURATA; TDK C C608C0GH9K080AA TDK 900PF C, C9, C, C CL0B05KP8NFN SAMSUNG ELECTRONICS UF C-C7 GRMER7E6KE5; CLB6KAJNFN; CLB6KAJNNW MURATA; SAMSUNG ELECTRONICS 5 C0, C CGAJX7RH05K5AB TDK UF 6 J DX07S0JJ JAE ELECTRONIC INDUSTRY DX07S0JJ 0.UF UF CAPACITOR; SMT (060); CERAMIC CHIP; 0.UF; 50V; TOL=0%; TG=-55 DEGC TO +5 DEGC; TC=X7R; AUTO CAP;SMT (060);900PF; 0%;50V;C0G;CERAMIC CHIP CAPACITOR; SMT (060); CERAMIC; UF; 0V; TOL=0%; TG=-55 DEGC TO +5 DEGC; TC=X7R CAPACITOR; SMT (0); CERAMIC CHIP; UF; 5V; TOL=0%; TG=-55 DEGC TO +5 DEGC; TC=X7R CAPACITOR; SMT (0805); CERAMIC CHIP; UF; 50V; TOL=0%; TG=-55 DEGC TO +5 DEGC; TC=X7R; AUTO CONNECTOR; FEMALE; SMT; USB TYPE-C CONNECTOR; DX07 SERIES RECEPTACLE; RIGHT ANGLE; PINS 7 J 908- TE CONNECTIVITY 908-8 J5 TSW-06-08-S-D-RA SAMTEC TSW-06-08-S-D-RA 9 J6, JU, JU, JU, JU7-JU PBC0SAAN SULLINS ELECTRONICS CORP. PBC0SAAN 0 JU PBC0DAAN SULLINS ELECTRONIC CORP. PBC0DAAN JU5, JU6 PEC0SAAN SULLINS ELECTRONICS CORP. PEC0SAAN L XFL00-ME COILCRAFT.UH LED-LED5 5 LG L9K-GJ- OSRAM LG L9K-GJ- PB 8590-6 TE CONNECTIVITY 8590-6 5 Q RRL05P0 ROHM RRL05P0 6 Q NX5P9BUK NXP NX5P9BUK CONNECTOR; FEMALE; THROUGH HOLE; INDUSTRIAL USB RECEPTACLE ASSEMBLY; RIGHT ANGLE; ROW; STRAIGHT; PINS; CONNECTOR; THROUGH HOLE; DOUBLE ROW; RIGHT ANGLE; PINS; EVKIT PART-CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT; PINS; -65 DEGC TO +5 DEGC; CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT; PINS EVKIT PART-CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT; PINS; -65 DEGC TO +5 DEGC; INDUCTOR; SMT; METAL COMPOSITE CORE;.UH; TOL=+/-0%; 8A; -0 DEGC TO +5 DEGC DIODE; LED; SMT (060); Vf=.7V; If(test)=0.00A; -0 DEGC TO +00 DEGC SWITCH; SPST; THROUGH HOLE; V; 0.05A; TACTILE SWITCH; RCOIL=0 OHM; RINSULATION=00M OHM; TE CONNECTIVITY TRAN; POWER MOSFET; PCH; TUMT6; PD-(.0W); I-(-.5V); V-(-0V) IC; SWTC; LOGIC CONTROLLED HIGH-SIDE POWER SWITCH; WLCSP6 Maxim Integrated
MAX78 Evaluation Kit Evaluates: MAX78 MAX78 EV Kit Bill of Materials (continued) ITEM REF_DES QTY MFG PART # MANUFACTURER VALUE DESCRIPTION COMMENTS 7 R-R, R, R8, R9 7 TNPW060K9BE VISHAY DALE.9K 8 R5-R8, R7 5 9 R9, R0 0 R, R5 CRCW06099RFK; RK7HJ990FT; ERJ- EKF990V; RC608F990 TNPW060K00BE; RG608P-0-B-T5 CRCW0600K0JN; ERJ-GEYJ0V KOA; VISHAY; PANASONIC; SAMSUNG VISHAY DALE/SUSUMU CO LTD. VISHAY DALE; PANASONIC R 6WR500KLF TT ELECTRONICS 500K K 0K RESISTOR, 060,.9K OHM, 0.%, 5PPM, 0.0W, THICK FILM RESISTOR; 060; 99 OHM; 99 %; 00PPM; 0.0W; THICK FILM RESISTOR; 060; K OHM; 0.%; 5PPM; 0.0W; THICK FILM RESISTOR; 060; 0K OHM; 5%; 00PPM; 0.0W; THICK FILM RESISTOR; THROUGH HOLE; 6 SERIES; 500K OHM; 0%; 00PPM; 0.5W R CRCW06000FK; ERJ-EKF00 VISHAY DALE/PANASONIC R6 PV7W0C0B00 BOURNS 00K SU, SU-SU, SUA, SUB SX00-B KYCON SX00-B 5 TP-TP, TP6 5 500 KEYSTONE N/A 6 TP5, TP7, TP8, TP8-TP0 6 500 KEYSTONE N/A 7 TP9-TP5 7 50 KEYSTONE N/A 8 TP6, TP7 500 KEYSTONE N/A 9 U MAX78 MAXIM MAX78 0 U, U NC7WZ07P6X FAIRCHILD SEMICONDUCTOR NC7WZ07P6X 00K RESISTOR; 060; 00K; %; 00PPM; 0.0W; THICK FILM RESISTOR; THROUGH HOLE; PV7 SERIES; 00K OHM; 0%; 50PPM; 0.5W TEST POINT; JUMPER; STR; TOTAL LENGTH=0.IN; BLACK; INSULATION=PBT; PHOSPHOR BRONZE CONTACT=GOLD PLATED TESTPOINT WITH.80MM HOLE DIA, RED, MULTIPURPOSE; TEST POINT; PIN DIA=0.IN; TOTAL LENGTH=0.IN; BOARD HOLE=0.0IN; ORANGE; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH; TEST POINT; PIN DIA=0.5IN; TOTAL LENGTH=0.5IN; BOARD HOLE=0.06IN; BLACK; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH; TEST POINT; PIN DIA=0.IN; TOTAL LENGTH=0.IN; BOARD HOLE=0.0IN; YELLOW; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH; EVKIT PART-IC; USB TYPE-C CHARGER; WLP5; PKG CODE: W5C+; PKG OUTLINE NO.: -00 IC; BUF; TINY LOGIC ULTRA- HIGH SPEED DUAL BUFFER; SC70-6 PCB MAX MAXIM PCB PCB:MAX - TOTAL 00 Maxim Integrated 5
MAX78 Evaluation Kit Evaluates: MAX78 MAX78 EV Kit Schematics SU SU6 SU9 SX00-B 0-JMPFS00B-00 JU(:) SX00-B 0-JMPFS00B-00 JU6(:) SX00-B 0-JMPFS00B-00 JU9(*) SU SU7 SU SX00-B 0-JMPFS00B-00 JU(:) SX00-B 0-JMPFS00B-00 JU7(:) SX00-B 0-JMPFS00B-00 JU(*) SU8 SU5 SX00-B 0-JMPFS00B-00 JU5(:) SX00-B 0-JMPFS00B-00 JU8(*) Maxim Integrated 6
Maxim Integrated 7 Evaluates: MAX78 MAX78 Evaluation Kit MAX78 EV Kit Schematics (continued) VEXT GREEN CC VBUS GREEN CDP/CDN 90 OHM DIFF GREEN RX+ SBU RX- GREEN RX- TX+ D- VBUS TX- D- D+ D+ SBUS RX+ TDP/TDN 90 OHM DIFF TX+ SBU CC GREEN VBUS TX- PEC0SAAN LG L9K-GJ- 0.UF.UH NX5P9BUK LG L9K-GJ- UF UF 0.UF 00K 0K PBC0SAAN 500K PEC0SAAN.9K 900PF 908- PBC0SAAN UF PBC0SAAN.9K NC7WZ07P6X PBC0SAAN UF UF 0.UF 0.UF 0K 0.UF PBC0DAAN PBC0SAAN TSW-06-08-S-D-RA 00K 99.9K PBC0SAAN PBC0SAAN LG L9K-GJ- UF UF PBC0SAAN UF UF DX07S0JJ RRL05P0 0.UF UF NC7WZ07P6X 99 NC7WZ07P6X 99.9K LG L9K-GJ- PBC0SAAN PBC0SAAN.9K 8590-6 K 99 99 K MAX78.9K.9K PBC0SAAN LG L9K-GJ- NC7WZ07P6X R5 LED C TP9 TP0 JU5 TP TP J6 C C9 R R TP5 J TP JU9 C TP6 R TP8 TP_CDP TP_CDN LED JU R9 JU R C5 C7 C R6 JU8 JU C6 C5 J5 Q JU JU R6 C R R R R8 R7 R8 LED5 R7 C6 R5 LED J C C7 C9 C0 C8 TP TP C TP7 TP9 TP6 TP7 TP TP0 TP JU0 JU TP TP5 L TP8 R PB JU7 JU6 R0 R9 JU Q U U U U U LED CC BREG FSUS SDA BAT VBUS_C VTPU SFOUT VMC NVP VCCINT CDN CC CDN LED INT TPU VBUS_C BAT CC CDIR SET THM VBUS_C CDP CDIR SFOUT TPU SDA VBUS_C BREG VBUS_C NVP BVCEN INT FLTIN VCCINT VTPU SDA SCL OK SCL FLTIN SET BVCEN SCL OK VCCINT CC CDP CDN CDP C9 C7 C B8 B6 C8 C5 C6 C C B7 B9 C C B 6 5 F7 D5 E B 9 0 7 8 6 A8 F8 A6 6 5 6 F F A D D6 D8 5 5 D F5 A9 F9 B D E E D7 D9 A A A5 A 5 F6 E5 D 6 E6 E7 E8 E9 F F A7 B B5 A C A B B E EN VIN VOUT VIN VOUT J- J- J-0 J-9 J-8 J-7 J-6 J-5 J- J- J- J- S D G NVP BVCEN TDN TDP CDP CDIR SFOUT THM LED CDN P P P P INT SDA CC LX LX LX LX BST VCCINT SCL VCONN BREG VTPU D FSUS CC BAT BAT BAT SET COMP TPU OK FLTIN A SHIELD A Y VCC A Y A Y A Y VCC SHIELD B B B0 B9 B8 B7 B6 B5 B B B B A A A0 A9 A8 A7 A6 A5 A A A A
MAX78 Evaluation Kit Evaluates: MAX78 MAX78 EV Kit PCB Layout Diagrams MAX78 EV Kit Mask Top MAX78 EV Kit Top MAX78 EV Kit Level MAX78 EV Kit Level SIGS Maxim Integrated 8
MAX78 Evaluation Kit Evaluates: MAX78 MAX78 EV Kit PCB Layout Diagrams (continued) MAX78 EV Kit Bottom MAX78 EV Kit Mask Bottom MAX78 EV Kit Paste Top MAX78 EV Kit Paste Bottom Maxim Integrated 9
MAX78 Evaluation Kit Evaluates: MAX78 MAX78 EV Kit PCB Layout Diagrams (continued) MAX78 EV Kit Silk Top MAX78 EV Kit Silk Bottom Maxim Integrated 0
MAX78 Evaluation Kit Evaluates: MAX78 Revision History REVISION NUMBER REVISION DATE DESCRIPTION PAGES CHANGED 0 9/7 Initial release For pricing, delivery, and ordering information, please contact Maxim Direct at -888-69-6, 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. 07 Maxim Integrated Products, Inc.