MAX14912EVKIT#

MAX14912/MAX14913 Evaluation Kit General Description The MAX14912/MAX14913 evaluation kit (EV kit) provides a proven design to evaluate the MAX14912 or MAX14913 octal digital output driver. The EV kit includes an evaluation board and a graphical user interface (GUI) that provides communication from a PC to the target device through a USB port. The EV kit includes Windows 7, Windows 8 and Windows 10 compatible software for exercising the features of the IC. The EV kit GUI allows controlling the MAX14912/ MAX14913 in either Parallel Mode or Serial (SPI) Mode. The EV kit must be powered from an external +24V power supply and can consume up to 10A when fully loaded. The MAX14912EVKIT/MAX14913EVKIT comes with a MAX14912AKN+, or MAX14913AKN+ installed in a 56-pin, 8 x 8mm TQFN-EP package. Evaluates: MAX14912/MAX14913 Features ●● Robust Operation with Wide Range of Input Voltages and Load Conditions ●● SPI Interface with up to 20MHz Clock Rate ●● Parallel Interface with up to 200kHz Switching Rate ●● Manual Control in Parallel Mode ●● Wide Logic Voltage Range ●● -40°C to +125°C Temperature Range ●● On-Board LED Indication of Status and Fault Conditions ●● Daisy-Chain Capability ●● Reverse-Voltage Protection ●● Proven PCB Layout ●● Fully Assembled and Tested ●● Windows® 7, Windows 8 and Windows 10 Compatible Software Ordering Information appears at end of data sheet. MAX14912/MAX14913 EV Kit Board Photo Windows is a registered trademark and registered service mark of Microsoft Corporation. 19-8493; Rev 0; 3/16 MAX14912/MAX14913 Evaluation Kit Evaluates: MAX14912/MAX14913 System Block Diagram VL BUKEN 24V 24V V5V TERMINAL BLOCK VL SRIAL CS CLK SDI SDO GND 24V PUSHPL 1 OUT1 PUSHPL FLTR OL/IN1 WDFLT/IN6 CNFG/IN7 S16/IN8 WDFLT/IN6 12 GND CNFG/IN7 13 OUT7 14 GND Ch2 Ch3 Ch4 Ch5 Ch6 Ch7 Ch8 Ch3 Ch4 Ch5 Ch6 Ch7 Ch8 CS CLK SDO www.maximintegrated.com Ch2 CHANNEL STATUS LDLS1-4 LDLS5-8 SDO2 GND 16 GND Ch1 VL V5V EXT_5V 15 OUT8 Ch1 SDO2 V5 CFN 11 OUT6 LEDDH48 LEDDH37 LEDDH26 LEDDH15 +3.3V V5V 10 GND OUT8 LEDDH15 LEDDH26 LEDDH37 LEDDH48 LDLS1-4 LDLS5-8 LDLF1-4 LDLF5-8 SDO MAX16910 OUT7 WDEN/IN5 CLK SDI V5V 8 GND 9 OUT5 S16/IN8 CS +5V_USB 7 OUT4 OUT6 CERR/IN4 WDEN/IN5 6 GND OUT4 OUT5 MAX14912/ MAX14913 CRC/IN3 OUT3 FAULT µC 5 OUT3 OUT2 CMND/IN2 CRC/IN3 CERR/IN4 4 GND OUT1 OL/IN1 CMND/IN2 3 OUT2 UVLO USB V5 CS CLK SDI SDO VL EN +5V_USB CFP SRIAL 2 GND LX VDD EN VPMP FLTR CHANNEL FAULT LDLF1-4 LDLF5-8 V5V Maxim Integrated │  2 MAX14912/MAX14913 Evaluation Kit MAX14912/MAX14913EV Kit Files FILE DECRIPTION MAX14912EVKITSetupV1.0.exe Application Program (GUI) Quick Start Required Equipment ●● MAX14912/MAX14913 EV kit ●● +24V power supply ●● Voltmeter (optional) ●● Oscilloscope (optional) ●● PC with installed Windows 7, Windows 8 or Windows 10 and USB port Note: In the following section(s), software-related items are identified by bolding. Text in bold refers to items directly from the EV system software. Text in bold and underline refers to items from the Windows operating system. Evaluates: MAX14912/MAX14913 Procedure The EV kit is fully assembled and tested. Follow the steps below to verify board operation: 1) Visit www.maximintegrated.com/evkitsoftware to download the latest version of the EV kit software, MAX14912EVKIT.ZIP. Save the EV kit software to a temporary folder and uncompress the ZIP file. 2) Install the EV kit software on your computer by running the MAX14912EVKITSetupV1.0.exe program inside the temporary folder. The program files are copied to your PC and icons are created in the Windows Start | Programs menu. 3) Verify that all jumpers are in their default positions for the SPI or parallel mode operation (Table 1). Note that the hardware is configured for SPI communication by default. 4) Power up the EV kit with +24V from external power supply. 5) Start the EV kit software by opening its icon in the Start | Programs menu. The EV kit software appears as shown in Figure 1. Verify that the lower-right status bar indicates the EV kit hardware is Connected.The GUI automatically detects which EV kit is connected to the PC, the MAX14912 or MAX14913, and enables Figure 1. Digital Output Driver EV Kit GUI. System Tab www.maximintegrated.com Maxim Integrated │  3 MAX14912/MAX14913 Evaluation Kit Evaluates: MAX14912/MAX14913 Table 1. MAX14912/MAX14913 Board Shunt Positions and Settings HEADER SHUNT POSITION J3 Open* Set IN8 high or low/select 16-bit or 8-bit SPI operation in GUI 1-2 Set IN8 high and OUT8 on/high (stand-alone parallel mode) 2-3 Set IN8 low and OUT8 off/low (stand-alone parallel mode) Open* J4 Set push-pull mode (stand-alone parallel mode) 2-3 Set high-side mode (stand-alone parallel mode) J7 J8 Enable outputs (stand-alone parallel mode) 2-3 Disable (three-state) outputs (stand-alone parallel mode) Set IN2 high and OUT2 on/high (stand-alone parallel mode) 2-3 Set IN2 low and OUT2 off/low (stand-alone parallel mode) 1-2* Enable glitch filtering on all parallel logic inputs and CS Open Disable parallel logic glitch filtering Open* Set IN7 high or low/Enable configuration command in GUI 1-2 Set IN7 high and OUT7 on/high (stand-alone parallel mode) 2-3 Set IN7 low and OUT7 off/low (stand-alone parallel mode) Enable serial peripheral interface (SPI) 2-3 Enable parallel interface (stand-alone parallel mode) Set IN1 high and OUT1 on/high (stand-alone parallel mode) 2-3 Set IN1 low and OUT1 off/low (stand-alone parallel mode) J13 J15 J16 www.maximintegrated.com Enable watchdog timer/set IN5 in GUI 1-2 Set IN5 high and OUT5 on/high (stand-alone parallel mode) 2-3 Set IN5 low and OUT5 off/low (stand-alone parallel mode) Open* J12 Enable/disable open-load detection/Set IN1 in GUI 1-2 Open* J11 Select serial or parallel interface active in GUI 1-2 Open* J10 Set IN2 high or low/enable command mode 1-2 Open* J9 Enable/disable outputs in GUI 1-2 Open* J6 Set push-pull or high-side mode in GUI 1-2 Open* J5 DESCIPTION Enable or disable CRC detection/set IN3 in GUI 1-2 Set IN3 high and OUT3 on/high (stand-alone parallel mode) 2-3 Set IN3 low and OUT3 off/low (stand-alone parallel mode) 1-2* Select 3.3V logic level 2-3 Select 5V logic level 1-2* 5V supply. Replace J15 shunt with a current meter to measure power consumption. 1-2* Connect Status and Fault LED anodes for outputs 1 and 5 to the driver Open Disconnect Status and Fault LED anodes for outputs 1 and 5 to the driver Maxim Integrated │  4 MAX14912/MAX14913 Evaluation Kit Evaluates: MAX14912/MAX14913 Table 1. MAX14912/MAX14913 Board Shunt Positions and Settings (continued) HEADER SHUNT POSITION J17 J18 J19 J22 J26 1-2* Open 1-2* Open 1-2* Open SW1 Disconnect Status and Fault LED anodes for outputs 2 and 6 to the driver Connect Status and Fault LED anodes for outputs 3 and 7 to the driver Disconnect Status and Fault LED anodes for outputs 3 and 7 to the driver Connect Status and Fault LED anodes for outputs 4 and 8 to the driver Disconnect Status and Fault LED anodes for outputs 4 and 8 to the driver 1-2 Select 5V power to U4 from USB port (CON1) Select 5V power to U4 from integrated buck regulator (U1) 1-2* Disable daisy-chain communication 2-3 Enable daisy-chaining of two boards and use GUI to send a command Enable CRC Error Detection output/Set IN4 high or low in GUI 1-2 Set IN4 high and OUT4 on/high (stand-alone parallel mode) 1-4 Set IN4 low and OUT4 off/low (stand-alone parallel mode) 1-3 Connect CERR LED (DS1) to U1 to indicate communication error if CRC is enabled on J12 Open* JMP2 Connect Status and Fault LED anodes for outputs 2 and 6 to the driver 2-3* Open* JMP1 DESCIPTION Enable watchdog fault output/set IN6 high or low in GUI 1-2 Set IN6 high and OUT6 on/high (stand-alone parallel mode) 1-4 Set IN6 low and OUT6 off/low (stand-alone parallel mode) 1-3 Connect WDFLT LED (DS2) to U1 to indicate communication error if Watchdog is enabled on J11 2-3, 5-6* Enable buck regulator of U1 to generate 5V (ON position) 1-2, 4-5 Disable buck regulator of U1. Provide an external +5V to TP1. *Default configuration. www.maximintegrated.com Maxim Integrated │  5 MAX14912/MAX14913 Evaluation Kit serial command mode communication. Any configuration change can be made on Register Settings tab. (The following steps are used to verify functionality of the devices.) 6) Select System tab. 7) Configure each input signal as Static High from the pulldown menu, as shown in Figure 1. 8) Click on Drive Pins button on the left-side of the GUI. 9) Observe all the status LEDs (DS5 to DS12) light up, and measured output voltages on corresponding OUT_ test point match VDD level. 10) Change the input signal to Static Low from the pulldown menu and observe as corresponding LED turned off. 11) Change the input signal to Static PWM. Select the duty cycle from the pulldown menu, refer to Figure 2, and observe the output on corresponding OUT_ test point by oscilloscope. Evaluates: MAX14912/MAX14913 General Description of Software When the GUI starts, it automatically detects which device is connected to the PC and indicates that in the status bar at the bottom-edge of the GUI. There are two tabs available to control the EV kit. The System tab provides system-level control of the selected output pins, including static or dynamic PWM (Pulse-Width Modulation) output in either serial or parallel Mode. The Register Settings tab provides full control of the device, including mode selection, per-channel configuration, and enhanced diagnostics of the device. In Serial mode, the SPI clock is set to 5MHz. System Tab The System tab allows driving the output pins by setting up the input signal to the device through the on-board USB to SPI/GPIO bridge IC, U4. Each input pin can be configured as Static High, Static Low, Static PWM, or PWM from the pulldown menu on the input lines in the block diagram shown in the System tab. Refer to Figure 3. Figure 2. System Tab. Static PWM Configuration www.maximintegrated.com Maxim Integrated │  6 MAX14912/MAX14913 Evaluation Kit Click Drive Pins button on the left-side of the GUI after configuring the inputs. The outputs follow the state of the inputs, while indicators connected to the OUT_ pins show the static state or dynamic operation mode. Connect the oscilloscope probe to OUT_ pin to see the output signal in real-time. In static PWM and PWM mode, the GUI generates a 1kHz (if SRIAL pin is high) or 20kHz (if SRIAL pin is low) square wave. The level of modulation is selectable from the pulldown menu from 0% to 100%. Refer to Figure 2. In PWM mode, the signal is modulated by a selected waveform. It can be either a sine wave with a selectable phase, triangle, or sawtooth wave. Refer to Figure 3. The modulation frequency is adjustable from 0Hz up to 60Hz by pressing the + or - buttons. This feature is useful to control small motors, including 3-phase motors, and actuators. Evaluates: MAX14912/MAX14913 Register Settings Tab The Register Settings tab is used for detailed configuration of the device to explore all the available features in either parallel (SRIAL is low) or serial (SPI) mode (SRIAL is high). SPI communication is also available in parallel mode with the MAX14912. For a detailed explanation of the features, refer to the MAX14912/MAX14913 data sheet. The mode and pin configuration can be set through the MAX14912 I/O pins control group box on the right-side of the tab. Refer to Figure 4. The pin set slide buttons allow the setting of the input pins high or low, while the read status boxes provide visual colored states of the input/output pins. The EV kit supports a number of different devices, as listed in Table 3. Figure 3. System Tab. PWM Configuration www.maximintegrated.com Maxim Integrated │  7 MAX14912/MAX14913 Evaluation Kit User-Supplied SPI To evaluate the EV kit with a user-supplied SPI bus, disconnect the board from the PC. Apply the usersupplied CS, SCLK (CLK), MOSI (SDI) and MISO (SDO) to the J25 header. Make sure the master ground is connected to the J25.5 ground pin. The logic level of the external SPI host should be compatible with the J13 shunt selection, (e.g., 3.3V or 5V). Use an external VL logic supply to TP19 to support different logic levels from 1.6V to 5.5V. In this case, J13 shunt should be removed. Daisy-Chaining The two MAX1491X EV kits can be daisy-chained by pairing J24 of board #2 and J23 of board #1 in order to control 16 outputs through a single SPI host. The J26 jumper of board #1 must be set to 2-3 position and both boards have to be powered from an external +24V. The PC should be connected to board #1. It is also required that board #2 has installed jumpers for SPI communication: J9: 1-2, J5: 1-2, J6: 1-2, J12: 2-3, and J11: 2-3. The daisy-chain feature is not supported by rev 1.0 GUI and can be evaluated using user-supplied SPI interface. Refer to the MAX14912/MAX14913 data sheet for daisychain command description. External +5V Power Supply An external +5V voltage can supply to TP1, +5V_EXT. In this case the internal dc-dc controller should be disabled (BUKEN = low) by switching SW1 into off position. www.maximintegrated.com Evaluates: MAX14912/MAX14913 Reverse-Voltage Protection The EV kit has reverse-voltage protection circuitry built on the return path of the supply current. During normal operation, the Q1 nMOSFET is ON since the gate voltage is about 7.5V higher than the source. Very low RON of Q1 MOSFET helps to minimize voltage drop and power dissipation to a negligible level. If VDD becomes negative with respect to the supply ground, the MOSFET is turned off and disconnects the current path. Stand-Alone Operation The EV kit can work without connecting to a PC. In this case, jumpers should set the inputs, refer to Table 1 for proper shunt positions. In stand-alone operation, the devices should be configured for parallel mode. It is recommended to enable internal de-bouncing by placing the J7 shunt for proper operation. This EV kit comes with two assembly options: The MAX14912EVKIT# comes with a MAX14912ATE+ in a 56-pin TQFN package. The MAX14913EVKIT# comes with a MAX14913ATE+ in a 56-pin TQFN package. Both EV Kit variations use the same PCB and bill of materials, and the only variation is the IC assembled at U1. Table 3. Products supported with MAX14912/MAX14913 EV kit PART # DESCRIPTION MAX14912 Octal High-Speed Output Driver MAX14913 Octal High-Speed Output Driver Maxim Integrated │  8 MAX14912/MAX14913 Evaluation Kit Evaluates: MAX14912/MAX14913 Figure 4. Digital Output Driver EV Kit GUI. Register Settings Tab The two tables on the left side of the tab are the register map (upper table) and bit-by-bit control and description table (lower table). When the register is selected in upper table, the lower table gives the description of each bit and allows changing the register settings using drop down menus for writable registers 0x00 to 0x03. The register setting can be changed directly in the register map table by double clicking on the Value cell. Each data entry should follow by the “Enter/Return” button on the keyboard. The Value cell accepts binary (0b), decimal or hex (0x) numbers and automatically convert them into binary format. The modified register changes its color from black to red until the data will be actually written to the register. There are several write and read options available through the corresponding control buttons on the upper right side of the GUI. When the Auto Write button is selected, any data typed in, or selected through, the Setting pulldown menu will be automatically written into the corresponding writable register. The button renamed to Stop Auto Write and auto write function can be canceled by clicking on this button second time. When the Auto Read button is selected, the write function is disabled and the GUI is constantly monitoring the status and fault conditions of the device. Clicking a second time on the button, which becomes Stop Auto Read, allows canceling this operation. The Read All button performs a read operation of all registers after each click. When any fault conditions occur, they will set the bit(s) in the corresponding read-only registers 0x04 to 0x07. The fault conditions should be carefully evaluated and removed externally (overvoltage/under voltage, overload, open load, etc.). After that, select the Clear Fault Registers Upon Next Write check box and perform any write/read operation to clear fault bits. The Write Modified button performs write operation to all modified registers after each click. www.maximintegrated.com Maxim Integrated │  9 MAX14912/MAX14913 Evaluation Kit Component List, PCB Layout, and Schematic See the following links for component information, PCB layout diagrams, and schematics. ●● MAX14912/MAX14913 EV BOM ●● MAX14912/MAX14913 EV PCB Layout ●● MAX14912/MAX14913 EV Schematics www.maximintegrated.com Evaluates: MAX14912/MAX14913 Ordering Information PART TYPE MAX14912EVKIT#* EVKIT MAX14913EVKIT# EVKIT *Future Product—Contact factory for availability. #Denotes RoHS compliant package. Maxim Integrated │  10 MAX14912/MAX14913 Evaluation Kit Evaluates: MAX14912/MAX14913 Revision History REVISION NUMBER REVISION DATE 0 3/16 DESCRIPTION Initial release PAGES CHANGED — For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated’s website at www.maximintegrated.com. 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. © 2016 Maxim Integrated Products, Inc. │  11 TITLE: Bill of Materials DATE: 12/11/2015 DESIGN: max14912_evkit_b NOTE: DNI--> DO NOT INSTALL ; DNP--> DO NOT PROCURE DNI/ ITEM REF_DES DNP QTY MFG PART # 1 C2 - 1 C3225X7S1H106K250AB MANUFAC TURER VALUE DESCRIPTION TDK 10UF C3-C6, C8, C10, C12, 2 C13, C15, C16, C20 - 11 GMK212B7105KG TAIYO YUDEN 1.0UF C7, C9, C18, C21, 3 C25, C28, C30-C36 - GRM188R72A104KA35; 13 CC0603KRX7R0BB104 MURATA; TDK 0.1UF 4 C11, C17, C19, C22 - 4 CGA4J1X7S1C106K125 TDK 10UF 5 C14 - 1 GRM188F51H224ZA01D MURATA 0.22UF 6 C23, C24, C29 - 3 C1608X5R1E475K080AC TDK 4.7UF 7 C26, C27 - 2 C0603HQN101-180FNP KEMET/VE NKEL 18PF 8 CON1 - 1 ZX62RD-AB-5P8 9 D1 - 1 SMDJ36CA 10 D2 11 D11 - 1 RB751S40 1 BZX84-A7V5 DS1-DS4, DS1312 DS20 - 12 LTST-C171KRKT HIROSE ELECTRIC CO LTD. LITTELFU SE FAIRCHIL D SEMICON DUCTOR NXP COMMENTS CAPACITOR; SMT (1210); CERAMIC CHIP; 10UF; 50V; TOL=10%; TG=-55 DEGC TO +125 DEGC; TC=X7S CAPACITOR; SMT (0805); CERAMIC; 1UF; 35V; TOL=10%; MODEL=GMK SERIES; TG=-55 DEGC TO +125 DEGC; TC=X7R CAPACITOR; SMT (0603); CERAMIC CHIP; 0.1UF; 100V; TOL=10%; TG=-55 DEGC TO +125 DEGC; TC=X7R CAPACITOR; SMT (0805); CERAMIC CHIP; 10UF; 16V; TOL=10%; TG=-55 DEGC TO +125 DEGC; TC=X7S; AUTO CAPACITOR; SMT (0603); CERAMIC CHIP; 0.22UF; 50V; TOL=20%; MODEL=Y5V; TG=-55 DEGC TO +125 DEGC; TC=+ CAPACITOR; SMT (0603); CERAMIC CHIP; 4.7UF; 25V; TOL=10%; MODEL=C SERIES; TG=-55 DEGC TO +85 DEGC; TC=X5R CAPACITOR; SMT; 0603; CERAMIC; 18pF; 50V; 0.25%; C0G; -55degC to + 125degC; 0 +/-30PPM/degC CONNECTOR; MALE; SMT; MICRO-USB CONNECTOR ZX62RD- MEETING REQUIREMENTS OF USB 2.0 STANDARD; AB-5P8 RIGHT ANGLE; 5PINS MICRO-USB 36V DIODE; TVS; SMC (DO-214AB); VRM=36V; IPP=51.6A RB751S 40 DIODE; SCH; SMT (SOD-523F); PIV=40V; IF=0.03A 7.5V DIODE; ZNR; SMT (SOT-23); VZ=7.5V; IZ=0.005A LITE-ON LTSTELECTRO C171KR DIODE; LED; STANDARD; RED; SMT (0805); PIV=5.0V; NICS; INC. KT IF=0.08A; -55 DEGC TO +85 DEGC LITE-ON LTSTELECTRO C171GK NICS; INC. T POMONA ELECTRO 3267 NICS 3267 13 DS5-DS12 - 8 LTST-C171GKT 14 J1, J2 - 2 J3-J6, J8-J13, J22, 15 J26 - 12 PCC03SAAN SULLINS 16 J7, J15-J19 - 6 PCC02SAAN SULLINS 17 J20, J21 - 2 OSTTE080104 18 J23 - 1 SSQ-105-02-L-S-RA 19 J24 - 1 TSW-105-25-T-S-RA 20 J25 - 1 PBC05SAAN 21 JMP1, JMP2 - 2 PEC04SAAN 22 L1 - 1 LPS4018-104MR 23 L2 - 1 MMZ1608B601C 24 Q1 - 1 AON6452 DIODE; LED; STANDARD; GREEN; SMT (0805); PIV=5.0V; IF=0.12A; -55 DEGC TO +85 DEGC CONNECTOR; MALE; PANELMOUNT; STANDARD UNINSULATED BANANA JACK; STRAIGHT; 1PIN CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; PCC03S STRAIGHT THROUGH; 3PINS; -65 DEGC TO +125 AAN DEGC CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; PCC02S STRAIGHT THROUGH; 2PINS; -65 DEGC TO +125 AAN DEGC ONSHORE TECHNOL OSTTE0 CONNECTOR; MALE; THROUGH HOLE; TERMINAL OGY INC. 80104 BLOCKS-WIRE TO BOARD; STRAIGHT; 8PINS SSQCONNECTOR; FEMALE; THROUGH HOLE; SSQ 105-02- SERIES; 0.025IN SQ POST SOCKET; RIGHT ANGLE; SAMTEC L-S-RA 5PINS TSW105-25- CONNECTOR; MALE; THROUGH HOLE; 0.025IN SQ SAMTEC T-S-RA POST HEADER; RIGHT ANGLE; 5PINS SULLINS ELECTRO NICS PBC05S CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; CORP. AAN STRAIGHT; 5PINS; -65 DEGC TO +125 DEGC SULLINS ELECTRO NICS PEC04S CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; CORP. AAN STRAIGHT; 4PINS COILCRAF INDUCTOR; SMT; FERRITE BOBBIN CORE; 100UH; T 100UH TOL=+/-20%; 0.56A 100UH INDUCTOR; SMT (0603); FERRITE-BEAD; 600; TOL=+/TDK 600 25%; 0.5A; -55 DEGC TO +125 DEGC ALPHA & OMEGA SEMICON AON645 TRAN; N-CHANNEL SDMOS POWER TRANSISTOR; DUCTOR 2 NCH; DFN8-EP; PD-(2W); I-(26A); V-(100V) 25 R1, R2, R7, R8 - CRCW06031001FK; ERJ4 3EKF1001V 26 R3-R6 - CRCW0603470RFK; ERJ4 3EKF4700 27 R9, R10 - 2 ERJ-3EKF28R0V 28 R11, R13, R19 - CRCW060310K0FK; 9C06031A1002FK; ERJ3 3EKF1002 29 R12 - 1 CRCW060315K0FK 30 R14 - 1 CRCW06032K20FK 31 R15 - 1 CRCW060312K0FK 32 R23 - 1 CRCW06033K00FK 33 R24 - CRCW06031003FK; ERJ1 3EKF1003 34 R25-R39 35 SCREW1-SCREW4 - - CRCW06030000ZS; MCR03EZPJ000; ERJ15 3GEY0R00 VISHAY DALE; PANASONI C 1K VISHAY DALE/PAN ASONIC PANASONI C VISHAY DALE/YAG EO PHICOMP/ PANASONI C VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE VISHAY DALE/PAN ASONIC VISHAY DALE/ROH M/PANAS ONIC EVKIT_STANDOFF_M2.5_20 4 MM ? 36 SU1-SU11 - 11 SX1100-B 37 SW1 - 1 EG2207 RESISTOR; 0603; 1K; 1%; 100PPM; 0.10W; THICK FILM RESISTOR, 0603, 470 OHM, 1%, 100PPM, 0.10W, 470 THICK FILM RESISTOR; 0603; 28 OHM; 1%; 100PPM; 0.10W; THICK 28 FILM 3K RESISTOR; 0603; 10K; 1%; 100PPM; 0.10W; THICK FILM RESISTOR, 0603, 15K OHM,1%, 100PPM, 0.10W, THICK FILM RESISTOR, 0603, 2.2K OHM, 1%, 100PPM, 0.10W, THICK FILM RESISTOR, 0603, 12K OHM, 1%, 100PPM, 0.10W, THICK FILM RESISTOR; 0603; 3K OHM; 1%; 100PPM; 0.10W; THICK FILM 100K RESISTOR; 0603; 100K; 1%; 100PPM; 0.10W; THICK FILM 10K 15K 2.2K 12K RESISTOR; 0603; 0 OHM; 0%; JUMPER; 0.10W; THICK 0 FILM EVKIT_ STAND OFF_M2 KIT; ASSY-STANDOFF20MM; 1PC. .5_20M STANDOFF/FEM/HEX/M2.5/(20MM)/ALUMINUM; 1PC. M SCREW/SLOT/PAN/M2.5/(6MM)/STEEL; ZINC PLATE TEST POINT; JUMPER; STR; TOTAL LENGTH=0.24IN; SX1100- BLACK; INSULATION=PBT;PHOSPHOR BRONZE KYCON B CONTACT=GOLD PLATED SWITCH; DPDT; THROUGH HOLE; STRAIGHT; 30V; 0.2A; SWITCH SLIDE DPDT 200MA 30V; RCOIL=0 E-SWITCH EG2207 OHM; RINSULATION=0 OHM TP1, TP18, TP19, 38 TP29 TP2, TP9-TP12, 39 TP20, TP30 - - 40 TP3-TP8, TP13-TP17 - 4 KEYSTON 5010 E N/A TESTPOINT WITH 1.80MM HOLE DIA, RED, MULTIPURPOSE; 7 KEYSTON 5011 E N/A TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; BLACK; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH; 11 KEYSTON 5014 E N/A TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; YELLOW; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH; KEYSTON 5013 E N/A TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; ORANGE; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH; 41 TP21-TP28 - 8 42 U1 - 1 MAX14912AKN+ MAXIM 43 U2 - 1 MAX16910CATA8/V+ MAXIM 44 U3 - 1 93LC66BT-I/OT 45 U4 - 1 FT2232HL MICROCHI P FUTURE TECHNOL OGY DEVICES INTL LTD. 46 Y1 - 1 ABM7-12.000MHZ-D2Y-T ABRACON 12MHZ 47 MICRO_USB_CABLE DNI 1 AK67421-1-R 48 SU12-SU20 DNI 9 SX1100-B 49 C1 DNP 1 EEV-TG1H102M MAX149 12AKN+ MAX169 10CATA 8/V+ IC; SWTC; OCTAL HIGH-SPEED; HIGH-SIDE SWITCH/PUSH-PULL DRIVER; TQFN56-EP IC; VREG; EXPOSED PAD 0.2A, AUTOMOTIVE, ULTRALOW QUIESCENT CURRENT, LINEAR REGULATOR; TDFN8-EP 150MIL 93LC66 IC; EPROM; 4K MICROWIRE SERIAL EEPROM; SOT23BT-I/OT 6 FT2232 IC; MMRY; DUAL HIGH SPEED USB TO HL MULTIPURPOSE UART/FIFO; LQFP64 CRYSTAL; SMT ; 18PF; 12MHZ; +/-20PPM; +/-30PPM CONNECTOR; MALE; USB; USB2.0 MICRO AK6742 CONNECTION CABLE; USB B MICRO MALE TO USB A ASSMANN 1-1-R MALE; STRAIGHT; 5PINS-4PINS TEST POINT; JUMPER; STR; TOTAL LENGTH=0.24IN; SX1100- BLACK; INSULATION=PBT;PHOSPHOR BRONZE KYCON B CONTACT=GOLD PLATED CAPACITOR; SMT (CASE_K16); ALUMINUMPANASONI ELECTROLYTIC; 1000UF; 50V; TOL=20%; TG=-40 C 1000UF DEGC TO +125 DEGC 50 D3-D10 51 R16-R18, R20-R22 DNP DNP 8 STPS0560Z ST MICROEL ECTRONI STPS05 DIODE; SCH; SCHOTTKY RECTIFIER; SMT (SOD-123); CS 60Z PIV=60V; IF=0.5A CRCW060310K0FK; 9C06031A1002FK; ERJ6 3EKF1002 VISHAY DALE/YAG EO PHICOMP/ PANASONI C 10K RESISTOR; 0603; 10K; 1%; 100PPM; 0.10W; THICK FILM This document contains information considered proprietary, and shall not be reproduced wholly or in part, nor disclosed to others without specific written permission. HARDWARE NAME:MAX14912_EVKIT_B HARDWARE NUMBER: ENGINEER: DESIGNER: DATE: 12/15/2015 ODB++/GERBER: J24 J1 C34 J2 VDD R36 R37 C32 R39 C35 R38 J25 C23 R31 R30 R34 R29 R33 R28 R32 R27 R22 TP29 Q1 VDD C2 R20 R23 C21 C27 C26 GND PGND OL/IN1 TP8 GND EN TP13 TP9 IN1 GND PGND OUT6 C14 U1 MAX1491X C19 CMND/IN2 TP4 J6 TP26 OUT6 R6 DS15 DS7 R5 DS16 DS8 CRC/IN3 R3 IN3 L1 C17 OUT5 TP25 OUT5 C11 J15 TP14 J12 J21 PGND 3 JMP1 PGND R4 C18 IN2 PUSHPL J4 DS6 TP18 J5 PUSHPL TP3 OUT7 OUT7 DS14 V5V J10 VL EN DS5 TP27 V5V V5V J9 DS13 U2 SRIAL TP17 OUT8 OUT8 3V3 J22 SRIAL PGND STATUS TP28 VL J7 R11 FAULT D11 C20 R12 C30 C24 C25 R15 Y1 C31 C29 C22 TP19 VL USB FLTR R9 R16 TP20 TP11 GND D2 R17 R25 R10 J13 R18 R26 U4 C28 R24 R19 U3 R14 C33 CON1 PGND D1 R21 R13 CERR/IN4 CERR GND TP10 TP24 SW1 ON OUT4 OUT4 TP5 DS17 DS9 IN4 R7 4 2 R1 1 DS1 DS4 PGND CHAIN WDEN/IN5 J26 TP15 IN5 J11 C9 DAISY C7 UVLO BUKEN TP23 OUT3 OUT3 FAULT R8 DS18 DS3 WDFLT WDFLT/IN6 JMP2 SBJ TP2 TP1 TP22 OUT2 TP12 TP6 IN6 GND +5V_EXT CNFG/IN7 J23 TP21 OUT1 TP16 J17 IN7 J8 S16/IN8 VL GND DS20 DS12 OUT1 J20 J16 MAX14912 TP7 IN8 J3 DS11 GND J18 CHAIN SPI OUT2 DS19 J19 PGND 4 2 DAISY R2 1 DS2 DS10 PGND 3 REV-B 12/15 TP30 PGND R35 C36 L2 SILK_TOP MAX14912/13 EVKIT 1-888-629-4642 www.maximintegrated.com MAX14913 1" 1/6 This document contains information considered proprietary, and shall not be reproduced wholly or in part, nor disclosed to others without specific written permission. HARDWARE NAME:MAX14912_EVKIT_B HARDWARE NUMBER: ENGINEER: DESIGNER: DATE: 12/15/2015 ODB++/GERBER: TOP 1" 2/6 This document contains information considered proprietary, and shall not be reproduced wholly or in part, nor disclosed to others without specific written permission. HARDWARE NAME:MAX14912_EVKIT_B HARDWARE NUMBER: ENGINEER: DESIGNER: DATE: 12/15/2015 ODB++/GERBER: LAYER2 1" 3/6 This document contains information considered proprietary, and shall not be reproduced wholly or in part, nor disclosed to others without specific written permission. HARDWARE NAME:MAX14912_EVKIT_B HARDWARE NUMBER: ENGINEER: DESIGNER: DATE: 12/15/2015 ODB++/GERBER: LAYER3 1" 4/6 This document contains information considered proprietary, and shall not be reproduced wholly or in part, nor disclosed to others without specific written permission. HARDWARE NAME:MAX14912_EVKIT_B HARDWARE NUMBER: ENGINEER: DESIGNER: DATE: 12/15/2015 ODB++/GERBER: BOTTOM 1" 5/6 This document contains information considered proprietary, and shall not be reproduced wholly or in part, nor disclosed to others without specific written permission. HARDWARE NAME:MAX14912_EVKIT_B HARDWARE NUMBER: DESIGNER: DATE: 12/15/2015 ODB++/GERBER: SILK_BOT CB1 ENGINEER: C1 C10 C15 C12 C13 D9 C16 D10 D8 C3 C4 C6 C8 D6 C5 D7 D5 D4 D3 1" 6/6 8 7 6 5 4 3 2 1 J1 F F + 1 IN D1 36V VDD DNI C1 C2 1000UF PLACE CLOSE TO EACH VDD PIN 2 10UF TP30 C3 C4 C5 C6 C8 C10 C12 C13 C15 C16 1.0UF 1.0UF 1.0UF 1.0UF 1.0UF 1.0UF 1.0UF 1.0UF 1.0UF 1.0UF V5V IN 1 J2 J15 TP19 1 IN J13 2 TP20 VL VL 2 3V3 TP29 VDD C17 V5V IN 3 E 10UF E C18 3 N.O. COM 2 C7 1 VDD 6 IN N.O. COM 2 IN 1 R1 IN IN IN IN IN IN IN 35 FLTR 43 PUSHPL 27 OL/IN1 28 CMND/IN2 29 CRC/IN3 CERR/IN4 31 WDEN/IN5 32 WDFLT/IN6 IN IN5 37 52 49 47 45 26 54 VDD VDD VDD VDD VDD 24 VDD 22 VDD V5 46 OUT6 48 OUT7 51 OUT8 53 VPMP 7 LEDH15 38 LEDH26 39 LEDH37 40 LEDH48 41 LDLF1-4 4 CNFG/IN7 S16/IN8 SRIAL 15 CS 14 CLK SDO 12 13 SDI FAULT 42 55 EN ULVO 56 LDLF5-8 3 LDLS1-4 2 LDLS5-8 1 C19 10UF VDD IN R3 R4 R5 R6 1 1 470 470 470 470 2 J17 2 J19 2 K A FAULT DS13 K A 4 EP PGND GND R8 1K 1K CH7_FLT 57 10 50 K DS17 K A CH4_FLT RB751S40 IN A K CH1_FLT CH2_FLT IN A K D11 7.5V VDD 1 IN G S D7 D3 OUT1 D IN A 10A AON6452 DNI DNI CB1 C OUT5 A IN D4 IN A D8 C OUT6 A IN D9 D5 IN IN A SRIAL C OUT7 A IN 3 3 1 S16/IN8 SRIAL OUT4 IN A C DNI DNI D6 B C DNI DNI OUT3 C DNI DNI TP17 IN8 DS20 K C J9 2 K CH5_FLT 1 D2 4 IN7 CNFG/IN7 1 1 TP7 A DS19 CH3_FLT OUT2 2 DS16 K K A K CH1_STS CH6_FLT DS18 A A DS15 5 3 R7 DS12 K K A K CH5_STS CH2_STS DS14 A A DS11 K A CH3_STS CH4_STS K CH6_STS DS10 A DS8 K A CH7_STS DS9 SDO DS7 DS6 K A CH8_STS A D 2 DS5 OUT OUT5 GND OUT6 GND OUT7 GND OUT8 GND ULVO Q1 J3 1 2 3 4 5 6 7 8 DS3 4 WDFLT/IN6 OUT5 OUT1 GND OUT2 GND OUT3 GND OUT4 GND J18 1 A 3K A IN 1 2 3 4 5 6 7 8 OUT6 OUT7 OUT8 J16 2 2 IN6 J20 OUT1 OUT2 OUT3 OUT4 FAULT TP16 1 IN OUT8 OUT7 J21 1 WDEN/IN5 J8 1 1 OUT6 OUT5 1 2 3 4 2 TP6 WDFLT 25 OUT5 V5V CERR/IN4 3 3 23 OUT4 16 C 1K 20 OUT3 34 8 3 2 IN4 2 R2 18 OUT2 33 4 JMP2 OUT1 DS4 100K K 19 30 OUT4 OUT3 TP21 TP22 TP23 TP24 TP25 TP26 TP27 TP28 IN R24 A MAX14912EAGN+ R23 IN DS2 U1 GND VDD TP15 1 2 IN IN IN IN CFN CRC/IN3 J11 1 1 CERR V5V TP5 3 3 IN3 CSB CLK SDI EN IN IN IN 5 OUT2 OUT1 CH8_FLT 2 1K IN IN IN CFP 3 K 2 3 A TP14 IN2 IN CMND/IN2 3 DS1 C IN1 J12 2 JMP1 3 TP4 IN OL/IN1 1 1 3 PUSHPL J6 2 PUSHPL FLTR PUSHPL IN1 IN2 IN3 IN4 IN5 IN6 IN7 IN8 SRIAL 6 36 IN BUKEN GND 2 TP13 J10 LX 21 1 TP3 0.22UF 0.1UF FLTR VL C14 C9 FLTR J4 100UH 11 2 9 44 GND 1 IN L1 1 10UF J7 VL C11 5 4 N.C. D V5V OUT 0.1UF N.C. TP2 VDD V5V TP1 +5V_EXT VDD TP18 SW1 VDD 17 0.1UF D10 C OUT8 A IN B C TP8 J5 TP9 2 IN EN 3 TP10 EN TP11 TP12 PROJECT TITLE: MAX14912 EVKIT DRAWING TITLE: A DIGITAL OUTPUT DRIVER A HARDWARE NUMBER: SIZE: C C DATE: 12/07/15 ENGINEER: REV.: DRAWN BY: B TEMPLATE REV.: SHEET 1 OF 2 1.5 8 7 6 5 4 3 2 1 8 7 6 5 4 3 2 1 F F ONE CAPACITOR PER EACH POWER PIN +1.8V C28 0.1UF 3V3 C30 0.1UF IN IN C32 0.1UF C33 0.1UF 3V3 C34 0.1UF C35 0.1UF C36 0.1UF IN C25 0.1UF C24 4.7UF 3V3 IN IN C29 0.1UF DNI 2 3 VREGIN 28 49 VREGOUT 28 16 ADBUS1 17 ADBUS2 18 ADBUS3 19 ADBUS4 21 ADBUS5 22 ADBUS6 6 ADBUS7 24 ACBUS0 26 SHIELD 10 9 8 7 DNI DNI +5V_USB IN R15 R11 10K D 7 DM ACBUS1 27 8 DP ACBUS2 28 ACBUS3 29 ACBUS4 30 ACBUS5 32 ACBUS6 33 6 REF 12K 14 3V3 RESET# IN R12 15K U3 6 R13 10K 93LC66BT-I/OT VCC DO ACBUS7 34 BDBUS0 38 BDBUS1 39 BDBUS2 40 BDBUS3 41 BDBUS4 43 BDBUS5 44 BDBUS6 45 BDBUS7 46 CS 5 63 EECS CLK 4 62 EECLK BCBUS0 48 DI 3 61 EEDATA BCBUS1 52 R14 VSS BCBUS2 53 2.2K 2 1 BCBUS3 54 BCBUS4 55 BCBUS5 57 BCBUS6 58 BCBUS7 59 PWREN# 60 SUSPEND# 36 C26 18PF R27 0 0 0 R31 0 R32 0 R33 0 R34 0 R35 0 R36 0 R37 0 R38 0 R39 0 R22 10K R21 10K R20 10K R19 10K R18 10K R17 10K SDI MISO OUT CSB OUT PUSHPL IN E FAULT OUT EN OUT SRIAL OUT IN1 OUT IN2 OUT IN3 OUT IN4 OUT IN5 OUT IN6 OUT IN7 OUT IN8 D C J26 IN SDO IN MISO IN SDO2 GND SINGLE 2 DAISY CHAIN 3 U2 MAX16910CATA8/V+ 1 3 2 IN C20 C21 1.0UF 0.1UF 2 3 B OUT 8 SETOV 6 RESET 4 TIMEOUT 5 IN ENABLE SET 7 GND OUT 3V3 J23 C22 10UF CSB CLK SDO SDO2 EP IN IN IN IN 1 2 3 4 5 J24 CSB CLK SDI SDO IN IN IN IN 1 2 3 4 5 J25 CSB CLK SDI MISO IN IN IN IN 1 2 3 4 5 B 9 J22 V5V CLK OUT IN 0 R30 OUT IN 1 +5V_USB 0 0 R28 R29 51 GND 47 GND 35 GND GND GND 25 10 15 TEST GND 13 5 OSCO 11 3 AGND 1 18PF Y1 12MHZ GND C27 OSCI 1 C 2 2 R26 VCCIO VCCIO VCCIO 4.7UF ADBUS0 23 5 10K 56 42 31 20 37 12 64 VCCIO VCORE VCORE VCORE C23 R10 U4 FT2232HL 10 9 8 7 6 4 R9 1 2 3 4 5 DNI 1 50 1 ZX62RD-AB-5P8 IN VPLL VPHY L2 +1.8V 9 4 2 IN 600 MICRO-USB 1 DNI R25 3V3 CON1 DNI +5V_USB E R16 OUT 3V3 C31 4.7UF PROJECT TITLE: MAX14912 EVKIT DRAWING TITLE: A USB AND MCU A HARDWARE NUMBER: SIZE: C C DATE: 12/07/15 ENGINEER: REV.: DRAWN BY: B TEMPLATE REV.: SHEET 2 OF 2 1.5 8 7 6 5 4 3 2 1