ADRF6614-EVALZ

ADRF6612-EVALZ/ADRF6614-EVALZ User Guide UG-968 One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com Evaluating the ADRF6612/ADRF6614, 700 MHz to 3000 MHz Rx Dual Mixer with Integrated Fractional-N PLL and VCO FEATURES Full featured evaluation board for the ADRF6612/ADRF6614 Single supply: 5 V operation EQUIPMENT NEEDED Rohde and Schwarz SMA100 CW generator (3×) Mini-Circuits® ZFSC-2-2500-S splitter combiner (or equivalent) Spectrum analyzer, Keysight PSA series or equivalent Power supply (5.0 V, 1.0 A) PC running Windows 7 (or Windows XP, or Windows Vista) USB 2.0 port, recommended (USB 1.1 compatible) ADRF6612/ADRF6614 evaluation board SOFTWARE REQUIRED ADRF6612/ADRF6614 software graphical user interface (GUI) INTRODUCTION This user guide allows the user to quickly power up and run the software for the ADRF6612/ADRF6614 integrated synthesizer and mixers. It complements the ADRF6612/ADRF6614 data sheet, which should be used in conjunction with this user guide. POWER, RF, IF, AND USB CONNECTIONS Figure 1 shows the ADRF6612/ADRF6614 evaluation board with all required connections for proper operation. All of the connections shown in Figure 2 must be made with the power turned off. When all power, RF, IF, and USB connections are made, the 5 V supply can then be turned on. When the power is turned on initially, the 5 V supply draws approximately 500 mA. When the device is initially programmed via the ADRF6612/ ADRF6614 GUI and USB interface, this current changes as described in the Software GUI Operation, Testing a Number of Evaluation Boards section. PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. The red and black clips on the evaluation board represent 5 V and GND, respectively. In the upper left of the evaluation board as shown in Figure 2, an SMA cable connects to an external PLL reference source. The dual single-ended RF inputs (RF1 and RF2) are located on the right side of the evaluation board. The IF outputs are located on the top right and bottom right sides of the board. In the default ADRF6612/ADRF6614 evaluation board configuration, the IF outputs are run single-endedly using the baluns on the board; thus, only one SMA is connected for each IF output. The USB connector for the software interface is located on the lower left side of the evaluation board. A standard USB cable, PC to mini USB, is required to connect this evaluation board to a PC. The ADRF6612/ADRF6614 evaluation board provides all of the support circuitry required to operate the ADRF6612/ADRF6614 in various modes and configurations. Figure 2 shows the typical bench setup to evaluate the performance of the ADRF6612/ ADRF6614. APPLYING POWER When the 5 V supply is first connected and turned on, the evaluation board draws approximately 500 mA. When the ADRF6612/ADRF6614 is programmed through the software GUI and the device is fully operational, this current increases to approximately 600 mA. Rev. 0 | Page 1 of 13 UG-968 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide TABLE OF CONTENTS Features .............................................................................................. 1 Software Directory Structure .......................................................5 Equipment Needed ........................................................................... 1 Software Required ............................................................................ 1 Software GUI Operation, Testing a Number of Evaluation Boards .............................................................................................6 Introduction ...................................................................................... 1 Testing the Next Evaluation Board .............................................7 Power, RF, IF, and USB Connections ............................................. 1 Evaluation Board Schematics...........................................................8 Applying Power ................................................................................. 1 Bill of Materials ............................................................................... 11 Revision History ............................................................................... 2 Evaluation Board Hardware ............................................................ 3 REVISION HISTORY 4/16—Revision 0: Initial Version Rev. 0 | Page 2 of 13 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide UG-968 EVALUATION BOARD HARDWARE PLL REF IN MUX OUT IF1 OUT +5V GND EXT LO IN LO OUT RFIN1 USB IF2 OUT Figure 1. ADRF6612/ADRF6614 Evaluation Board with Connections Rev. 0 | Page 3 of 13 14445-001 RFIN2 UG-968 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide 38.4MHz PLL REFERENCE PLL REF IN MUX OUT IF1 OUT +5V +5V GND EXT LO IN 1899.5MHz RF INPUT LO OUT RFIN1 USB TO PC RFIN2 Mini-Circuits® COMBINER ADJUST THE AMPLITUDE OF EACH RF GENERATOR TO −10dBm FOR EACH TONE AT THIS POINT IF2 OUT 1900.5MHz RF INPUT 14445-002 IF OUTPUT TO SPECTRUM ANALYZER Figure 2. ADRF6612/ADRF6614 Typical Measurement Setup Rev. 0 | Page 4 of 13 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide SOFTWARE DIRECTORY STRUCTURE The software is packaged in the following compressed file: ADRF6612_14_rev_2p0p0_customer_install.zip. The GUI itself loads its initial values from a .txt file located in the device_save_states subdirectory, as shown in Figure 4. The user can edit this file or save it to a different file name to modify the start-up conditions. 14445-003 When extracted, the included readme file describes how to install the driver for Windows® XP, Windows Vista™, and Windows 7. This software is compatible with 32-bit and 64-bit systems. When the software installs, the default installation directory opens, as shown in Figure 3. UG-968 14445-004 Figure 3. Default Installation Directory for ADRF6612/ADRF6614 Software Figure 4. Device Save States Subdirectory Rev. 0 | Page 5 of 13 UG-968 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide SOFTWARE GUI OPERATION, TESTING A NUMBER OF EVALUATION BOARDS When the software starts, it loads the initial values from the .txt files described in the Software Directory Structure section. As an example, when the GUI starts, it opens as shown in Figure 5. 14445-005 It is important to note that when entering data into any of the text fields in this GUI, the ENTER key must be pressed when the input is complete. This action updates the variables in the software so that the ADRF6612/ADRF6614 are programmed with these values during the next programming step (that is, selecting a new value from any of the drop-down menus or clicking INIT). Figure 5. Software GUI for the ADRF6612/ADRF6614 (Note that Green Indicators Show Proper USB Connection) Rev. 0 | Page 6 of 13 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide Test and Programming Sequence At this point, if everything is set up correctly, the spectrum analyzer display appears similar to Figure 6. 4. 5. 6. 7. 8. 9. To test the next evaluation board, disconnect and reconnect all signal, power, and USB connections. It is not necessary to close the software GUI. Reconnect all connections on the next board to be tested. When all connections are made, it is only necessary to click INIT to place the next ADRF6612/ADRF6614 evaluation board into a completely operational state. The output spectrum is visible as shown in Figure 6. CENTER 203MHz RES BW 30kHz SPAN 25MHz SWEEP 33.52ms (601pts) Figure 6. ADRF6612/ADRF6614 Two-Tone Spectral Output Figure 7. Synthesizer Divider Settings Dialog Box Rev. 0 | Page 7 of 13 14445-007 3. TESTING THE NEXT EVALUATION BOARD 14445-006 2. Adjust the amplitude of each generator so that each tone on the output of the combiner is at −10 dBm. Ideally, use an SMA barrel to connect the combiner output to the RF input of the ADRF6612/ADRF6614. If this is not possible, use a short as possible cable to minimize cable loss at this point. Set the spectrum analyzer to a center frequency of 203 MHz with a span of 25 MHz, set the input attenuation to 30 dB, and set VBW and RBW to automatic. Click INIT (lower right) to load most of the default conditions into the ADRF6612/ADRF6614 registers. Select the Auto VCO check box in the center of the VCO Control area of the GUI. Enter 38.4 in the PLL REF IN (MHz) box in the PLL Reference Input area n of the GUI (center left) to set the PLL reference frequency. Enter a value of 1 in the first PLL REF DIVIDER box in the PLL Reference Input area of the GUI. Click the button to the right of the PLL REF DIVIDER box to select the divider value of 1 just entered. The PFD frequency field to the right of the FREQ (MHz) button then changes to read 38.4. Click Synthesizer Divider Settings in the middle of the GUI to open the Synthesizer Divider Settings dialog box as shown in Figure 7. Select FRAC from the DIV_MODE drop-down menu. Set the LO output frequency to 1697 MHz by entering 1697 in the LO OUT FREQ (MHz) box, and then click SET. These steps complete the testing of Channel 2. To test Channel 1, remove the RF connection from RF Port 2 and connect it to RF Port 1. Additionally, disconnect the IF connection from IF Port 2 and connect it to IF Port 1. The spectrum analyzer display is similar to that in Figure 6. 10dB/DIV The sequence for setting up the test and programming the ADRF6612/ADRF6614 for proper operation is as follows: 1. UG-968 Rev. 0 | Page 8 of 13 Figure 8. ADRF6612/ADRF6614 Evaluation Board Schematic, Main Circuitry 14445-008 P N AGND P N VCC_IF RED 1 C16 0.1UF C19 0.1UF C6 0.1UF C3 0.1UF C2 0.1UF VCC_IF C92 10UF (VCCIF1) VCC_LO RED 1 VCC_LO VCC_IF (VCCIF2) VCC_IF (VCC5SPI) VCC_SYNTH (VCC5VCO) VCC_SYNTH (VCC5PLL) VCC_SYNTH P N AGND C8 10UF C5 10UF C82 CLOSE AS POSSIBLE TO THE PINS ON THE CHIP 100PF C23 39PF VCOTUNE R41 0 R8 C108 100PF AGND AGND LDO2P5PLL AGND C26 10UF AGND 4 PRI C11 C107 100PF 10UF LDO2P5SPI AGND 0 R35 AGND C100 100PF AGND R7 910 C14 10UF AGND 4 R98 0 PLL REF IN AGND C15 100PF 100PF 100PF 1 2 3 4 5 6 7 8 9 10 11 12 AGND L1 330NH L2 330NH CPOUT PLL_REF_IN 1000PF C54 AGND C32 150PF AGND C33 150PF GND VCOVTUNE GND EXTVCOIN+ EXTVCOINGND VCC1 DECL1 DECL2 DECL3 DECL4 DECL5 LDO3P3DIV AGND C30 0.1UF VCC_IF C31 C28 C58 C57 100PF 10UF AGND C24 TBD0805 DNI AGND AGND 2 3 4 5 R19 50 AGND AGND C105 10UF AGND VCC_SYNTH LDO3P3PLL 3 SEC VCC_IF AGND C29 0.1UF PLL_REF_IN JOHNSON142-0701-851 1 CPOUT 1 BLU C89 C104 10UF 100PF AGND AGND AGND C102 10UF 100PF TC1-1-43A+ AT224-1 6 1 PRI T2 AGND C103 100PF AGND C27 100PF 0 R97 C25 C18 1500PF C101 100PF 3 SEC EXT VCO OUTPUT TC1-1-43A+ AT224-1 6 1 T1 C20 .033UF 1.8K C22 560PF R10 20K JOHNSON142-0701-851 2 3 4 5 1 LO_OUT AGND 2 3 4 5 EXT_LOIN JOHNSON142-0701-851 1 AGND GND4 1 BLK AGND ALL 100PF DECOUPLING CAPS SHOULD BE AS AGND C1 10UF VCC_SYNTH RED 1 VCC_SYNTH AGND C17 100PF AGND C21 100PF AGND C12 100PF AGND C9 100PF AGND C7 100PF AGND GND3 1 BLK AGND VTUNE 1 BLU R96 1K DNI VCC_IF GND2 1 BLK ADRF6612ACPZ U1 AGND C35 150PF AGND C34 150PF 330NH L4 330NH L3 R93 1K DNI LDO2P5SPI VCC_SYNTH DATA CLK LE VCC_IF GND1 1 BLK VCC_SYNTH LDO3P3PLL LDO2P5PLL R95 1K DNI TP5 1 BLU 150PF C37 150PF C36 150PF C39 150PF C38 AGND T5 AGND TC4-1W+ C60 150PF 3 2 1 C44 10000PF C42 22PF VCC_LO VCC_LO VCC_LO VCC_SYNTH LDO3P3DIV VCC_LO VCC_LO VCC_LO C40 10PF MUXOUT 4 6 AGND C45 10000PF AGND 4 6 C43 22PF C59 150PF TP4 1 BLU R94 1K DNI T4 TC4-1W+ 3 2 1 AGND C41 10PF 36 RFBCT1 35 RFIN1 34 VCC10 33 VCC9 32 VCC8 31 VCC7 30 LDO2 29 VCC6 28 VCC5 27 VCC4 26 RFIN2 25 RFBCT2 PAD EP 48 GND 47 CPOUT 46 VCC12 45 LDO4 44 LDO3 43 REFIN 42 MUXOUT 41 VCC11 40 DNC 39 IFOUT1+ 38 IFOUT137 GND LOOUT+ LOOUTLDO1 VCC2 SDIO SCLK CS_N VCC3 DNC IFPOUT2+ IFOUT2GND R38 PINS 27,28,29,32,33,34 CLOSE AS POSSIBLE TO SHOULD BE LOCATED AS THESE SIX 10PF CAPS AGND 2 3 4 5 AGNDRF_IN1 JOHNSON142-0701-851 1 AGND R16 0 IF2P AGND 2 3 4 5 IF2N IF2N DNI AGND AGND 2 3 4 5 1 2 3 4 5 JOHNSON142-0701-851 IF2P 1 JOHNSON142-0701-851 0 DNI R40 AGND IF OUTPUT 2 0 R37 AGND 2 3 4 5 RF_IN2 JOHNSON142-0701-851 1 R18 0 DNI MUX_OUT AGND 2 3 4 5 JOHNSON142-0701-851 1 CR3 SML-210MTT86 R36 2K 0 DNI R39 AGND R15 0 AGND 2 3 4 5 IF1P JOHNSON142-0701-851 1 IF1P IF1N JOHNSON142-0701-851 1 IF1N DNI 0 R17 0 DNI IF OUTPUT 1 AGND C A 13 14 15 16 17 18 19 20 21 22 23 24 AGND C50 10PF AGND C49 10PF AGND C48 10PF AGND C47 10PF AGND C46 10PF AGND C10 10PF AGND C4 10PF C91 0.1UF C90 0.1UF C56 0.1UF C55 0.1UF C53 0.1UF C52 0.1UF C51 0.1UF VCC_LO (VCC2LO4) VCC_LO (VCC2LO3) VCC_LO (VCC2LO2) VCC_LO (VCC5DIV) VCC_SYNTH (VCC1LO2) VCC_LO (VCC1LO3) VCC_LO (VCC1LO4) UG-968 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide EVALUATION BOARD SCHEMATICS Figure 9. ADRF6612/ADRF6614 Evaluation Board Schematic, Cypress USB Interface 14445-009 0.1UF C6 1 3V3_USB 897-43-005-00-10000 1 DGND 0.1UF C63 GND PINS SNS1 DGND SNS 0.1UF C6 4 0.1UF C65 DECOUPLING FOR U1 AGND 2 1 0.1UF C6 6 DGND 0.1UF C69 10PF C67 3V3_USB 0.1UF C68 0.1UF DGND 14 13 12 11 10 9 8 7 6 5 4 3 2 G4 G3 DGND 3V3_USB 1 C62 G2 G1 5 4 DGND R28 2K R2 7 2K RESERVED IFCLK GND VCC AGND DMINUS 7 6 3 2 1 8 VCC 4 5 0.1UF C73 10PF C72 DGND 24LC64-I-SN SDA WC_N GND SCL A2 A1 A0 U2 3V3_USB DGND CTL0_FLAGA CTL1_FLAGB CTL2_FLAGC VCC PA0_INT0_N PA1_INT1_N PA2_SLOE PA3_WU2 AVCC DPLUS PA4_FIFOADR0 AGND PA6_PKTEND PA5_FIFOADR1 CY7C68013A-56LTXC GND RESET_N PA7_FLAGD_SLCS_N 29 30 31 32 33 34 35 36 37 38 39 40 41 42 U4 3V3_USB XTALIN XTALOUT AVCC RDY1_SLWR RDY0_SLRD 16 3 3V3_USB 15 2 PAD PAD 55 SDA 17 1 18 P2 PB0_FD0 19 5V_USB DGND PB1_FD1 20 C71 PB2_FD2 21 22PF PB3_FD3 22 2 56 GND SCL 54 VCC 52 GND 51 PD7_FD15 50 PD6_FD14 49 PD5_FD13 PB4_FD4 23 4 PB5_FD5 24 DGND PB6_FD6 25 1 26 CASE PB7_FD7 48 PD4_FD12 47 PD3_FD11 46 PD2_FD10 45 PD1_FD9 GND 53 CLKOUT VCC 3V3_USB GND 28 DGND 3 VCC 43 WAKEUP 44 PD0_FD8 VCC 27 3V3_USB C70 DGND DGND CR1 2K R32 5V_USB CR2 2K R29 0.1UF C74 100K R30 3V3_USB SML-210MTT86 22PF SML-210MTT86 Y1 C Rev. 0 | Page 9 of 13 A C A 24.000000MEGHZ DGND R31 JP1 DGND JPR0402 1 JP3 JPR0402 1 JP2 JPR0402 1 0.1UF C75 100K 1UF C77 2 2 2 DGND IN2 IN1 OUT2 OUT1 2 1 DGND DGND 6 3 SD_N FB PAD GND 5 PAD 8 7 ADP3334ACPZ U3 DNI DGND TBD0402 330PF DNI C76 1K R2 5 3V3_USB 78.7K R33 DGND DNI 1K R24 C80 1000PF 3V3_USB DGND DNI 330PF TBD0402 C78 140K R21 DGND DNI 1K R22 1 1 BLK DNI DGND TP2 DGND 1UF C81 BLK DNI TP1 DGND DNI 330PF TBD0402 C79 LE DATA CLK ADRF6612-EVALZ/ADRF6614-EVALZ User Guide UG-968 14445-010 DNI 100K R9 DNI 100K R100 DNI R99 TBD0603 DGND WP SCL A2 A1 A0 8 DGND 4 VSS VCC SDA JEDEC_TYPE=MSOP8 E014160 24LC32A-I/MS 7 6 3 2 1 5 DNI U11 TP6 DATA JPR0402 1 JP6 DNI 2 DATA_SDP 0 R6 0 R34 DNI DNI TP7 CLK DNI JPR0402 1 JP4 2 CLK_SDP Figure 10. ADRF6612/ADRF6614 Evaluation Board Schematic, SDP Interface (Not Presently Used) Rev. 0 | Page 10 of 13 DGND DGND P7 LE 1 JP5 2 LE_SDP R1 DNI DGND 49 TP8 50 71 32 22 21 20 19 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 120 DGND 23 97 DNI 24 96 1 25 95 0 26 94 119 27 93 29 28 92 91 30 31 90 88 33 89 VCC_SYNTH 35 87 34 36 86 85 37 38 39 40 84 83 82 DNI 41 81 JPR0402 42 80 79 43 44 78 77 45 46 76 47 74 75 73 48 51 70 72 52 69 53 54 55 56 57 58 59 60 FX8-120S-SV(21) 68 67 66 65 64 63 62 61 FX8-120S-SV(21) P7 UG-968 ADRF6612-EVALZ/ADRF6614-EVALZ User Guide ADRF6612-EVALZ/ADRF6614-EVALZ User Guide UG-968 BILL OF MATERIALS Table 1. Bill of Materials Qty. 1 3 11 1 1 1 Reference Designator PCB C1, C8, C92 C4, C10, C40, C41, C46 to C50, C62, C72 C7, C9, C11, C12, C15, C17, C21, C25, C27, C28, C31, C57, C82, C100, C101, C103, C104, C108 C5, C14, C26, C58, C89, C102, C105, C107 C2, C3, C6, C16, C19, C29, C30, C51 to C53, C55, C56, C61, C63 to C69, C73 to C75, C90, C91 C18 C20 C22 1 10 2 2 C23 C32 to C39, C59, C60 C42, C43 C44, C45 1 2 2 C54 C70, C71 C77, C81 1 C80 4 TP4, TP5, CPOUT, VTUNE CR1 to CR3 18 8 25 3 8 Description PCB Capacitors, tantalum Capacitors, multilayer ceramic, NP0 0402 Capacitors, Chip monolithic ceramic, C0G 0402 Value PCB 10 µF 10 pF Manufacturer Analog Devices, Inc. AVX Phycomp (Yageo) Part No. 08_035817C TAJA106K010RNJ CC0402JRNP09BN100 100 pF Murata GRM1555C1H101JD01D Capacitors, ceramic monolithic Capacitors, ceramic, X7R 0402 10 µF Murata GRM21BR61C106KE15L 0.1 µF Murata GRM155R71C104KA88D Capacitor, ceramic, X7R Capacitor, ceramic Capacitor, monolithic ceramic, NP0 Capacitor, ceramic, NP0 Capacitors, ceramic, C0G 0402 Capacitors, ceramic Capacitors, ceramic chip, X7R 0402 Capacitor, ceramic, C0G 0402 Capacitor, ceramic, NP0 Capacitor, monolithic ceramic, X5R Capacitor, chip monolithic ceramic, C0G 0603 Connector, PCB test point, blue LED, 570NM WTR, CLR 0805, SMD (green) Connector, PCB coaxial SMA, end launch 1500 pF 0.033 µF 560 pF Phycomp (Yageo) KEMET Murata 2238 586 15625 C0603C333J3RACTU GRM1885C1H561JA01D 39 pF 150 pF 22 pF 10,000 pF Phycomp (Yageo) Murata Phycomp (Yageo) TDK 2238 867 15399 GRM1555C1H151JA01D 0402CG220J9B200 C1005X7R1E103K 1000 pF 22 pF 1 µF Murata Phycomp (Yageo) Murata GRM1555C1H102JA01 CC0603JRNP09BN220 GRM188R61E105KA12D 1000 pF Murata GRM1885C1H102JA01D Blue TP104-01-06 SML-210MTT86 Components Corporation Rohm SML-210MTT86 142-0701-851 Johnson 142-0701-851 Black Components Corporation Coilcraft Mill-Max TP-104-01-00 Panasonic ERJ-2RKF2002X 0Ω Panasonic ERJ-2GE0R00X 50 Ω VISHAY FC0402E50R0FST1 140 kΩ NIC Components Corporation Phycomp (Yageo) NRC06F1403TRF 4 IF1P, IF2P, LO_OUT, RF_IN1, RF_IN2, MUX_OUT, EXT_LOIN, PLL_REF_IN GND1 to GND4 4 1 L1 to L4 P2 1 R10 9 R15 to R17, R35, R37, R38, R41, R97, R98 1 R19 1 R21 Connector, PCB test point, black Inductors, SM Connector, PCB receptacle mini USB, Type B SMT Resistor, precision thick film chip, R0402 Use E003438 from cell Resistor JMPROPEN or Resistor JMPRSHRT Resistor, high frequency chip, 0402 Resistor, film chip thick 5 R27 to R29, R32, R36 Resistors, film, SMD 0603 330 nH 897-43-005-00100001 20 kΩ 2 kΩ Rev. 0 | Page 11 of 13 0603CS-R33XJLW 897-43-005-00-100001 9C06031A2001FKHFT UG-968 Qty. 2 Reference Designator R30, R31 1 R33 1 1 2 2 1 R7 R8 T1, T2 T4, T5 U1 1 1 U2 U3 1 U4 3 1 2 VCC_IF, VCC_LO, VCC_SYNTH Y1 IF1N, IF2N (DNI) 1 P7 (DNI) 6 R1, R6, R18, R34, R39, R40 (DNI) 2 R9, R100 (DNI) 7 2 R22, R24, R25, R93 to R96 (DNI) TP1, TP2 (DNI) 1 U11 (DNI) ADRF6612-EVALZ/ADRF6614-EVALZ User Guide Description Resistors, precision thick film chip Resistor, precision thick film chip, 0603 Resistor, chip, SMD 0603 Resistor, thick film chip XFMR RF SMT XFMR RF with customized pad IC, dual passive receive mixer, PREL IC, 64 kb EEPROM IC, high accuracy, low IQ, adjustable low dropout regulator IC, HS USB peripheral Connectors, PCB test point, red IC, crystal SMD Connectors, PCB coaxial SMA, end launch Connector, PCB vertical type receptacle SMD Use E003438 from cell Resistor JMPROPEN or Resistor JMPRSHRT Resistor precision thick film chip Resistor precision thick film chip, R0402 Connectors, PCB test point, black IC, 32 kb serial EEPROM Value 100 kΩ Manufacturer Panasonic Part No. ERJ-3EKF1003V 78.7 kΩ Panasonic ERJ-3EKF7872V 910 Ω 1.8 kΩ TC1-1-43A+ TC4-1W+ ADRF6612ACPZ/ ADRF6614ACPZ 24LC64-I-SN ADP3334ACPZ Panasonic Panasonic Mini Circuits Mini Circuits Analog Devices ERA-3YEB911V ERJ-2GEJ182X TC1-1-43A+ TC4-1W+ ADRF6612ACPZ/ ADRF6614ACPZ 24LC64-I-SN ADP3334ACPZ CY7C68013A56LTXC Red Cypress Semiconductor Components Corporation NDK Johnson NX3225SA-24.000000MHZ 142-0701-851 HRS FX8-120S-SV(21) 0Ω Panasonic ERJ-2GE0R00X 100 kΩ Panasonic ERJ-3EKF1003V 1 kΩ Panasonic ERJ-2RKF1001X Black Components Corporation Microchip TP-104-01-00 24.000000MEGHZ Johnson 1420701-851 FX8-120S-SV(21) 24LC32A-I/MS Rev. 0 | Page 12 of 13 Microchip Analog Devices CY7C68013A-56LTXC TP-104-01-02 24LC32A-I/MS ADRF6612-EVALZ/ADRF6614-EVALZ User Guide UG-968 NOTES ESD Caution ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality. Legal Terms and Conditions By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc. (“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal, temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional limitations: Customer shall not (i) rent, lease, display, sell, transfer, assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term “Third Party” includes any entity other than ADI, Customer, their employees, affiliates and in-house consultants. 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Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed. ©2016 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG14445-0-4/16(0) Rev. 0 | Page 13 of 13