MAX31963EVKIT#

Evaluate: MAX31953/MAX31963 MAX31953/MAX31963 Evaluation Kits General Description Features The USB-to-SPI dongle is a separate PCB that can be used to interact with the EV kit software. This dongle is optional and is not necessary for the proper operation of the MAX31953/MAX31963 if the user supplies the SPI interface. EV Kit Contents The MAX31953/MAX31963 evaluation kit (EV kit) provides the hardware and software (graphical user interface) necessary to evaluate these industrial octal digital input translators/serializers. The EV kit includes a MAX31953/MAX31963AUI+ installed and a USB-to-SPI interface. This EV kit is intended for functional and parametric evaluation of the IC only; it is not intended for EMC testing. MAX31953/MAX31963 EV Kit Files FILE DESCRIPTION MAX31953_63EVKitSoftwareInstall.exe Application program Note: The .EXE file is downloaded as a .ZIP file. ●● ●● ●● ●● ●● Easy Evaluation of the MAX31953/MAX31963 Fully Assembled and Tested USB HID Interface Digital Isolator Windows XP® OS- and Windows® 7 OS-Compatible Software ●● RoHS Compliant ●● Assembled circuit board including MAX31953/ MAX31963AUI+ ●● USB-to-SPI dongle ●● Mini-USB cable Quick Start Note: In the following sections, software-related items are identified by bolding. Text in bold refers to items directly from the install or EV kit software. Text in bold and underlined refers to items from the Windows operating system. Ordering Information appears at end of data sheet. MAX31953/MAX31963 EV Kit Windows is a registered trademark and registered service mark of Microsoft Corporation. Windows XP is a registered trademark and registered service mark of Microsoft Corporation. 19-7688; Rev 0; 6/15 Evaluate: MAX31953/MAX31963 MAX31953/MAX31963 Evaluation Kits Required Equipment ●● PC with Windows XP or Windows 7 OS ●● USB port ●● Mini-USB cable (included) ●● EV kit hardware (included) ●● USB-to-SPI dongle (included) ●● Screwdriver ●● Wire ●● Power supply Procedure The EV kit is fully assembled and tested. Follow the steps below to verify board operation. 1) Connect the USB-to-SPI dongle (J52) to the EV kit connector J3. 2) Install jumpers on RIREF (J2) and SIN-GND (J6). 3) Set the EV kit hardware on a non-conductive surface that will ensure that nothing on the PCB is shorted to the workspace. 4) Use the wires to connect J1 (VCC and GND) to a power supply and tighten the screws on the wire. 5) Prior to installing the GUI, connect the EV kit hardware to a PC using the supplied mini-USB cable, or equivalent. The POWER LED (D50) should be green and the COM LED (D51) should be red and slowly flash orange. 6) Windows should automatically begin installing the necessary device driver. The USB interface of the EV kit hardware is configured as a HID device and, therefore, does not require a unique/custom device driver. Once the driver installation is complete, a Windows message will appear near the system icon menu indicating that the hardware is ready to use. Do not attempt to run the GUI prior to this message. If you do, you will have to close the application and restart it once the driver installation is complete. On some versions of Windows, administrator privileges may be required to install the USB device. 7) Once the device driver installation is complete, save MAX31953_63EVKitSoftwareInstall.zip on the disk provided to a temporary folder. 8) Open the .ZIP file and double click the .EXE file to run the installer. A message box stating “The publisher could not be verified. Are you sure you want to run this software?” may appear. If so, click Yes. 9) The installer GUI will appear. Click Next and then www.maximintegrated.com Install. Once complete, click Close. 10) When the GUI appears, the text above the status box should indicate that the EV kit hardware is connected. The COM LED (D51) will change to green. 11) Connect field inputs to J5 or install jumpers on FIN1FIN8 and click Single Read. Detailed Description of Software Hardware Configuration In this section, the user must provide hardware configuration information about the EV kit. Select the 8 Bits radio button in the Number of Bits section if MODESEL does not have a jumper on J6. Select the 16 Bits radio button if MODESEL is connected to GND on J6. If there are more devices daisy-chained to the EV kit, select the number of devices with the Number of MAX31953/63 combo box. Reads To read the input channels of the devices, select Single Read. This will calculate the number of bits to read based on the Hardware Configuration settings and then display the read data in the table. Continuous Reads will read the input channels every 300ms and display the data in the table. Once the Continuous Reads starts, the button text will change to Stop for the user to stop the reads. Data The data table displays the 8 or 16 bits read from each device connected to the EV kit. The first row of data is the first 8 or 16 bits read from the device connected to the microcontroller. The second row is the data read from the device connected to the SIN/DINF of the first device. The MAX31953/63 column displays the device name. The device name can be changed by clicking on the name twice. The HEX column displays the data in hexadecimal format for each device. The Input Channels, CRC, UV Alarm, and OT Alarm columns display the data in binary format. Detailed Description of Hardware User-Supplied SPI interface The USB-to-SPI dongle is an optional PCB that is only needed to interact with the device software. The user has the option to supply an external SPI interface to communicate with the MAX31953/MAX31963. To connect a user-supplied SPI interface, remove the dongle from J3 and connect an external SPI interface to the pins on J3. Removing the dongle will also remove the isolator, so the user may also want to provide an external digital isolator. Maxim Integrated │  2 MAX31953/MAX31963 Evaluation Kits Evaluate: MAX31953/MAX31963 Figure 1.MAX31953/MAX31963 EV Kit Graphic User Interface (GUI) www.maximintegrated.com Maxim Integrated │  3 Evaluate: MAX31953/MAX31963 MAX31953/MAX31963 Evaluation Kits Table 1. Hardware Configurations HARDWARE ACTION COMPONENTS DESCRIPTION Connect Field Inputs J5 Remove pullup jumpers FIN1-FIN8 and connect field inputs to J5. Adjust Current Limit J2 (RIREF) Remove jumper on J2 and connect external resistor to the RIREF pin on J2. Connect other end of resistor to GND. Daisy Chain MAX31953/ MAX31963 DINF (Resistor R12) Remove DINF resistor on R12 and connect external MAX31953/MAX31963 DOUT (or MAX3191x DOUT) to DINF. Connect User-Supplied SPI Interface J3 Remove USB-to-SPI dongle from J3 and connect user SPI interface to J3 pins. Note: This will also remove the digital isolator. See User-Supplied SPI Interface for more details. Table 2. Description of Jumpers JUMPER DESCRIPTION J2 RIREF: Connects R1 to RIREF pin DB0 Pulls DB0 down to GND DB1 Pulls DB1 down to GND MODESEL Pulls MODESEL down to GND or pulls to VDD24V. FIN1 – FIN8 Field Inputs: Connects field input FINX to VIN Note 1: These inputs have internal pullups. Table 3. Description of LEDs LED COLOR D1-D8 Red Field Input LED Driver: Field input is logic high. D10 Red Fault: MAX31953/MAX31963 has detected a fault. The field supply is too low or the IC temperature is too high. Red USB Power Fault: A fault occurred due to overvoltage limit, current limit, or thermal limit. D50 (POWER) D51 (COM) Green Red Green www.maximintegrated.com DESCRIPTION USB Power: USB power supply is on Communication: After the software has initialized the hardware, the LED will flash red when a command from the PC is received. Initialized: Hardware has been initialized by software. Maxim Integrated │  4 Evaluate: MAX31953/MAX31963 MAX31953/MAX31963 Evaluation Kits Troubleshooting Significant effort was spent ensuring that each EV kit works right out of the box. On the rare occasion that a problem is encountered, refer to Table 4 for troubleshooting guidance. Table 4: Troubleshooting SYMPTOM GUI Indicates Hardware Not Found. CRC returns all 0’s or all 1’s www.maximintegrated.com CHECK SOLUTION Is the LED labeled D50 red? If yes, then the electronic fuse (U50) is in a fault state. Inspect for electrical shorts on the PCB and make sure that the PCB is not sitting on a conductive surface. Does the LED labeled D51 turn green when the GUI is running? If not, exit the GUI and try running it again. If D51 still does not turn green, exit the GUI and try connecting the USB cable to a different USB port on the PC and wait for a Windows message that states the hardware is ready to use. Run the GUI again. Are any of the LEDs illuminated? If not, the PCB may not be getting power from the USB. Try a different USB cable/different USB port. Check MODESEL Place a jumper on MODESEL for the MAX31953/ MAX31963 to be in proper (8-bit to VDD or 16-bit to GND) mode. Maxim Integrated │  5 Evaluate: MAX31953/MAX31963 MAX31953/MAX31963 Evaluation Kits Ordering Information PART TYPE MAX31953EVKIT# EV Kit MAX31963EVKIT# EV Kit #Denotes RoHS compliant. Component List and Schematics See the links below for component information and schematics: ●● MAX31953/MAX31963 EV BOM ●● MAX31953/MAX31963 EV Schematic www.maximintegrated.com Maxim Integrated │  6 Evaluate: MAX31953/MAX31963 MAX31953/MAX31963 Evaluation Kits Revision History REVISION NUMBER REVISION DATE 0 6/15 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. © 2015 Maxim Integrated Products, Inc. │  7 1 2 3 4 5 6 Connects to USB to SPI board COR11 R11 VDDL PIR1102 PIR1101 PIJ2303 PIJ601 VDDL COJ23 PID10 2 PIJ2301 PIJ2302 LED NLFAULT FAULT NLDB0L DB0L A NLDB1L DB1L NLGNDL GNDL 1 PIJ101 2 PIJ102 P/N: MMB02070C1500FB200 150 1/3w MELF COR2 R2 NLV24 V24 PIR201 PIR202 PID902 PID901 GNDF NLVDD24F VDD24F COD9 D9 36V ZEN P/N: 1SMB36AT3G PIC1201 PIC1202 PIC1 01 COC12 C12 0.1uF PIC1 02 PIC2401 COC11 C11 PIC2402 10uF 100V P/N: C5750X7S2A106M COC24 C24 1u GNDF GNDF COC14 C14 VDD5F PIC2301 GNDF PIC2302 COC13 C13 COC23 C23 1u COJ24 PIJ2403 + + V24 GNDF PIC1401PIC1402 PIC1401 PIC1402 PIC1301PIC1302 PIC1301 PIC1302 DNP DNP MODESEL B GNDF GND' 1 2 PIU101 PIU102 3 PIU103 4 PIU104 5 PIU105 6 PIU106 7 PIU107 8 PIU108 9 PIU109 10 PIU1010 NLGNDF GNDF 11 PIU1011 NLDB1F DB1F 12 PIU1012 NLDB0F DB0F 13 PIU1013 NLMODESEL MODESELPIU1014 14 IN1 15 PIU1015 LED1 16 PIU1016 IN2 17 PIU1017 LED2 18 PIU1018 IN3 19 PIU1019 LED3 20 PIU1020 IN4 21 PIU1021 LED4 22 PIU1022 IN5 23 PIU1023 LED5 24 PIU1024 GNDL Field Power V24 COJ1 J1 PIU1049 COD10 D10 PIJ2402 PIJ2401 GND' FAULT DB0L DB1L GNDL NC NC NC NC NC NC GNDF DB1F DB0F MODESEL IN1 LED1 IN2 LED2 IN3 LED3 IN4 LED4 IN5 LED5 COTP4 DOUTTP4 PITP401 GNDF VDDL 48 DOUT PIU1048 47 CS PIU1047 46 CLK PIU1046 45 VDDL PIU1045 44 NC PIU1044 43 NC PIU1043 42 NC PIU1042 41 NC PIU1041 40 PIU1040 NC 39 NC PIU1039 38 VDD5F PIU1038 37 VDD24F PIU1037 36 LX PIU1036 35 GNDF PIU1035 34 RIREF PIU1034 33 CSO PIU1033 32 CLKO PIU1032 31 DINF PIU1031 30 LED8 PIU1030 29 IN8 PIU1029 28 LED7 PIU1028 27 IN7 PIU1027 26 LED6 PIU1026 25 IN6 PIU1025 NLDOUT DOUT NLCS CS COL1 L1 1 PIR301 PIR302 2.2k 1/4w MELF P/N: MMA02040C2201FB300 COR4 R4 PIR401 PIR402 2.2k 1/4w MELF P/N: MMA02040C2201FB300 PIC301 PIC302 2 COTP2 TP2 PITP201 5V PIC101 PIC102 COC1 C1 0.1uF NLFIN3 FIN3 COR5 R5 PIJ202 PIJ201 COJ2 J2 RIREF COR6 R6 PIR601 PIR602 2.2k 1/4w MELF P/N: MMA02040C2201FB300 PIC501 C5 COC5 PIC502 1nF 60V - DNP FIN4 NLFIN4 C FIN5 NLFIN5 NLLED1 LED1 R8 COR8 PIR801 PIR802 2.2k 1/4w MELF P/N: MMA02040C2201FB300 NLFIN6 FIN6 PIC701 PIC702 NLLED2 LED2 PIC801 PIC802 PIR901 PIR902 2.2k 1/4w MELF P/N: MMA02040C2201FB300 PIC901 PIC902 R10 COR10 NLFIN8 FIN8 PIR1001 PIR1002 2.2k 1/4w MELF P/N: MMA02040C2201FB300 LED5 NLLED5 PIC10 2 LED5 LED-DNP NLIN7 IN7 1nF 60V - DNP LED6 PID601 PID602 LED-DNP COD7 D7 LED7 NLLED7 1nF 60V - DNP PIJ902 PITP101 LED7 LED8 NLLED8 FIN6 GNDF J17 COJ17 1 PIJ1701 FIN3 2 PIJ1702 CON2 FIN7 J21 COJ21 1 PIJ2102 2 CON2 FIN7 PIJ2101 PIC2101 PIC2102 DNP C22 COC22 PIC2201 PIC2202 FIN8 J22 COJ22 PIJ2201 1 PIJ2202 2 CON2 GNDF D PIJ1402 Title Size GNDF Number Revision B Date: File: 2 PIC2002 DNP J18 COJ18 1 PIJ1801 FIN4 2 PIJ1802 CON2 Layout solder bridges under LEDS 1 PIC2001 PIJ1302 LED-DNP GNDF C PIC1902 C20 COC20 FIN6 FIN8 SOLDER_BRIDGE2 PID801 PID802 PIC1901 C21 COC21 J14 COJ14 PIJ1401 PIC1802 DNP SOLDER_BRIDGE2 LED8 PIC1801 DNP DB1L DB0L COJ13 J13 PIJ1301 COC18 C18 FIN4 C19 COC19 GNDF PIJ1202 PIC1702 DNP FIN5 J20 COJ20 PIJ2001 1 PIJ2002 2 CON2 SOLDER_BRIDGE2 PID701 PID702 D8 COD8 COJ19 J19 1 PIJ1902 2 CON2 PIJ1901 PIJ1102 J12 COJ12 PIJ1201 FIN5 J16 COJ16 1 PIJ1601 FIN2 2 PIJ1602 CON2 GNDF J11 COJ11 PIJ1101 24V IN PIC1701 DNP J5 COJ5 PIJ1002 LED-DNP D GNDF PIJ802 COJ15 J15 1 PIJ1501 FIN1 2 PIJ1502 CON2 1 2 3 4 5 6 7 8 9 10 SOLDER_BRIDGE2 COD6 D6 LED6 NLLED6 24V IN 1PIJ501 2 FIN8 PIJ502 3 FIN7 PIJ503 4PIJ504 FIN6 5PIJ505 FIN5 6PIJ506 FIN4 7 FIN3 PIJ507 FIN2 8 PIJ508 FIN1 9 PIJ509 10PIJ5010 COTP1 GNDFTP1 PID501 PID502 PIC1602 COC17 C17 J10 COJ10 PIJ1001 PIC1601 DNP FIN3 J9 COJ9 PIJ901 PIC1502 COC16 C16 FIN2 PIJ702 COJ8 J8 PIJ801 PIC1501 DNP COJ7 J7 PIJ701 SOLDER_BRIDGE2 D5 COD5 1nF 60V - DNP C10 COC10 LED4 PID401 PID402 LED-DNP NLIN8 IN8 PIC10 1 FIN1 COTP7 SOLDER_BRIDGE2 D4 COD4 LED4 NLLED4 COC9 C9 LED3 PID301 PID302 LED-DNP NLIN6 IN6 R9 COR9 COC15 C15 GNDF DINF TP7 DINF PITP701 SOLDER_BRIDGE2 D3 COD3 1nF 60V - DNP COC8 C8 LED2 PID201 PID202 LED-DNP LED3 NLLED3 COC7 C7 B R1 PIR1015k 1 1/8w SOLDER_BRIDGE2 D2 COD2 IN5 NLIN5 PIR701 PIR702 LED1 PID101 PID102 LED-DNP 1nF 60V - DNP R7 COR7 2.2k 1/4w MELF P/N: MMA02040C2201FB300 NLFIN7 FIN7 COC6 C6 LED Bypass COD1 D1 IN4 NLIN4 PIC601 PIC602 PIR102COR1 PITP601 Input Indicator Bank NLIN3 IN3 PIR501 PIR502 2.2k 1/4w MELF P/N: MMA02040C2201FB300 COC2 C2 4.7uF PITP501 COTP6 CLKOTP6 IN2 NLIN2 PIC401 COC4 C4 PIC402 1nF 60V - DNP PIC202 FAULT C3 COC3 FIN2 NLFIN2 PIC201 GNDF NLIN1 IN1 1nF 60V - DNP A PIL102 VDD5F NLVDD5F VDD5F VDD24F NLLX LX GNDF NLRIREF RIREF NLC\S\O\ CSO NLCLKO CLKO NLDINF DINF LED8 IN8 LED7 IN7 LED6 IN6 COTP5 CSO TP5 NLFIN1 FIN1 1 2 3 4 5 6 7 8 68uH PIL101 Input Filter Bank COR3 R3 1PIJ301 2PIJ302 3PIJ303 4PIJ304 5PIJ305 6PIJ306 7PIJ307 8PIJ308 COJ3 J3 COU1 U1 MAX31963 GNDF GNDL FAULT DOUT CS CLK VDDL NLCLK CLK NLVDDL VDDL 2 1 DB1L GNDL PIJ602 3.3k 49 PIJ603 PID10 1 EP COJ6 DB0L 3 4 5 5/28/2015 C:\Users\..\RV03EVKITP1.SchDoc Sheet of Drawn By: 6 1 2 3 4 5 6 A A COD50A D50A COU50 U50 6 1 560 Red PIU5006 COJ50 J50 FLAG OUT PIU5001 NLVBUS VBUS 1 5 2 PIU5005 IN Vbus PIJ5001COR51 GND PIU5002 NLD0 R51 0 D2 4 3 IR5101 PIR5102 PIU5004 ON PIU5003 D- PIJ5002PPIR5101 SETI COR52 0 NLD0 D+ 3 PR52 IR5201 PIR5202 D+ PIJ5003PIR5201 MAX4995A 4 I.D. PIJ5004 COC50 C50 5 COR63 GND PIJ5005 R63 USB_5PIN 100K 10uFPIC50 2 PIR6301 COTP3 TP3 COC57 C57 0.1uF PIC5701 PIC5702 3900_5V PITP301 3900_5V COJ4 J4 1 2 3900_5V PIJ401 3900_GND PIJ402 3900_GND NL39000VL 3900_VL NL39000SCK 3900_SCK NL39000CS 3900_CS B NL39000MISO 3900_MISO NL39000FAULTB 3900_FAULTB PID5001 PID5002 3900_5V PIC5101 COC51 C51 10uFPIC5102 PIC50 1 PIR6302 3900_GND 3900_GND Green COR50 R50 PIR5001 PIR5002 PID50 4 COD50B D50B PID50 3 PIR6202 COR62 R62 PIR6201560 1 PIJ5201 1 2 3 4 5 PIJ5205 6 PIJ5206 7 PIJ5207 8 PIJ5208 PIJ5202 PIJ5203 PIJ5204 2 3 4 5 6 7 8 B 3900_5V COJ52 J52 PIRCOR53 5R53 302 Red Connects to MAX31953/63 hardware D51A COD51A PID5101 PIR54.7k 301 PID5102 Green PIR5402 COR54 R54 PIR5401330 3900_GND COM COJ51 J51 2 PIJ5102 1 PIJ5101 DNP 3900_GND R57 0 COR57 PIR5702 PIR5701 C COX50 X50 1 PIX5001 2 PIX5002 3900_5V 4 INH VCC PIX5004 GND OUT PIX5003 3 C53 PIC5301 COC53 PIR5 02 PIR5602 COR55 COR56 R55 R56 PIR5 01330 PIR5601 2.2k COD51B PID5201 PID5104 D51B COD52 D52 PID5202 PID5103 COU51 U51 NLVPP 1 VPP 28 MCLR P8,1W_PU PIU51028 NLHBPIU5101 3900_FAULTB HB 2 27 PIU5102 P3,HB P7,1W_DQ PIU51027 NLCOM COM 3 26 PIU5103 COM_LED,BOOT P5 PIU51026 4 25 PIU5104 P1 USB_DET PIU51025 5 24 PIU5105 P2 VPO PIU51024 6 23 PIU5106 RCV VMO PIU51023 3900_CS 3900_SCK 7 22 PIU5107 P6, CS P10,SCK,SCL PIU51022 3900_MISO 8 21 PIU5108 GND P11,SDI,SDA PIU51021 OSC1 9 20 NLOSC1PIU5109 OSC1 VDD PIU51020 10 19 PIU51010 OSC2 GND PIU51019 11 18 PIU51011 P4 P9,SDO PIU51018 12 17 PIU51012 UOE ENUM PIU51017 D+ 13 16 PIU51013 PS_VAR D+,VP PIU51016 DVUSB 14 15 NLVUSB PIU51014 VUSB D-,VM PIU51015 PIC5401 220nFPIC5402 C54 COC54 22pFPIC5302 3900_5V COC55PIC5 01 C55 1uF PIC5 02 C COC56 PIC5601 C56 PIC5602 0.1uF PICfor DS3900 3900_GND USB to SPI Interface 3900_GND 3900_GND D D Title Size Number Revision B Date: File: 1 2 3 4 5 5/28/2015 C:\Users\..\RV03EVKITP2.SchDoc Sheet of Drawn By: 6 BILL OF MATERIALS (BOM) Revision 6/15 Comment DNP 0.1uF 4.7uF 1nF 100V 10uF 100V 0.1uF 4700pF - 2kV 0.1uF - 1kV - DNP 0.1uF - DNP 10uF LED-Red LED 36V ZEN Phoenix Contact 1984617 RIREF CON2 VL_5V DNP S1311E-07-ND CON10 DB0L DB1L MODESEL SOLDER_BRIDGE2 68uH 15k 1/8w 150 1/3w MELF 2.2k 1/4w MELF 3.3k DNP DNP 0 GNDF, GNDL 5V, 3900_5V, VDDL, V24 DOUT, CSO, CLKO, DINF MAX31963 DNP DNP DNP Designator Quantity Manufacturer no Manufacturer C1, C25, C26 3 C1608X7R1H104K080AA TDK C2 1 GRM188R61E475KE11D Murata C3, C4, C5, C6, C7, C8, 8 AVX08051C102KAT2A AVX C11 1 C5750X7S2A106M TDK C12 1 CGA4J2X7R2A104K TDK C13, C14 2 1812GC472KAT1A AVX C15, C16, C17, C18, 8 C19, C20, C21, C22 C0805C102KDRACTU Kemet C23, C24 2 C1608X7R1H104K080AA TDK C27 1 C5750X7S2A106M TDK 8 D6, D7, D8 HSMS-C170 Avago Technologies D10 1 HSMS-C170 Avago Technologies D9 1 1SMB36AT3G ON Semi J1, J25 2 1984617 Phoenix Contact J2 1 961102-6404-AR 3M 8 J20, J21, J22 961102-6404-AR 3M J4 1 961102-6404-AR 3M J51 1 961102-6404-AR 3M J3 1 22-28-8070 Molex J5 1 1-282834-0 TE Connectivity J6 1 517-9611036404AR 3M J23 1 517-9611036404AR 3M J24 1 517-9611036404AR 3M J7, J8, J9, J10, J11, J12, 8 L1 1 580-27683C Murata R1 1 CRCW080515K0FKEA Vishay/Dale R2 1 MMB02070C1500FB200 Vishay/Dale 8 R9, R10 MMA02040C2201FB300 Vishay/Dale R11 1 CRCW08053K30FKEA Vishay/Dale R12, R13, R14, R15, 8 R16, R17, R18, R19 CRCW08050000Z0EA Vishay/Dale TP1, TP9 2 534-5001 Keystone TP2, TP3, TP8, TP10 4 534-5000 Keystone TP4, 5, 6, 7 4 534-5002 Keystone U1 1 INTERFACE BOARD B 0 4.7k 330 2.2k 100K MAX4995A PICfor DS3900 R50, R62 R51, R52, R57 R53 R54, R55 R56 R63 U50 U51 2 3 1 2 1 1 1 1 CRCW0805560RFKEA CRCW08050000Z0EA CRCW08054K70FKEA CRCW0805330RFKEA CRCW08052K20FKEA CRCW0805100KFKEA MAX4995AAUT+ PIC18LF2550-I/SO Maxim Microchip OSC_CMOS_5V - TXCABfM5 10uF 22pF 220nF 1uF 0.1uF LED_DUAL SCHOTTKEY S5482-ND USB_5PIN X50 C50, C51 C53 C54 C55 C56, C57 D50, D51 D52 J52 J50 1 2 1 1 1 2 2 1 1 1 7W-48.000MAB-T EMK212ABJ106KD-T C0805C220KBRACTU C2012X7R1H224K C2012X7R1H105K/SOFT CGA4J2X7R2A104K APHBM2012SURKCGKC RB060M-30TR PPPC071LGBN-RC 54819-0519 TXC Corporation Taiyo Yuden Kemet TDK TDK TDK Kingbright ROHM Semiconductor Sullins Connectors Molex Vishay/Dale Vishay/Dale Vishay/Dale Vishay/Dale Vishay/Dale Vishay/Dale