EV-ADF4355SD1Z

EV-ADF4355SD1Z User Guide UG-805 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 ADF4355 Microwave Wideband Synthesizer with Integrated VCO FEATURES GENERAL DESCRIPTION Self contained board, including ADF4355 frequency synthesizer with integrated VCO, differential 122.88 MHz temperature controlled crystal oscillator (TCXO), loop filter (20 kHz), USB interface, and voltage regulators Windows®-based software allows control of synthesizer functions from a PC Externally powered by 6 V The EV-ADF4355SD1Z evaluates the performance of the ADF4355 frequency synthesizer with integrated VCO for phase-locked loops (PLLs). A photograph of the evaluation board is shown in Figure 1. The evaluation board contains the ADF4355 frequency synthesizer with integrated VCO, a differential 122.88 MHz reference (TCXO), a loop filter, a USB interface, power supply connectors, and subminiature Version A (SMA) connectors. A USB cable is included to connect the board to a PC USB port. EVALUATION KIT CONTENTS EV-ADF4355SD1Z USB cable For easy programming of the synthesizer, download the Windows-based software from www.analog.com/ADF4355. EQUIPMENT NEEDED Windows-based PC with USB port for evaluation software System demonstration platform, serial only (SDP-S) EVAL-SDP-CS1Z controller board Power supply (6 V) Spectrum analyzer 50 Ω terminators This board requires an SDP-S (shown in Figure 1, but not supplied with the kit). The SDP-S allows software programming of the EV-ADF4355SD1Z device. ONLINE RESOURCES Documents Needed ADF4355 data sheet EV-ADF4355SD1Z user guide PLL Software Installation Guide Required Software Analog Devices, Inc., ADF4355 software, Version 0.46.1 or higher (available for download at www.analog.com/ADF4355) 12944-001 EVALUATION BOARD PHOTOGRAPH Figure 1. EV-ADF4355SD1Z UG-805 EV-ADF4355SD1Z User Guide TABLE OF CONTENTS Features .............................................................................................. 1 RF Output .......................................................................................4 Evaluation Kit Contents ................................................................... 1 Loop Filter ......................................................................................4 Equipment Needed ........................................................................... 1 Reference Source ...........................................................................4 Online Resources .............................................................................. 1 Default Configuration ..................................................................4 General Description ......................................................................... 1 Evaluation Board Setup ................................................................5 Evaluation Board Photograph......................................................... 1 Evaluation Board Software ...............................................................6 Revision History ............................................................................... 2 Main Controls ................................................................................6 Getting Started .................................................................................. 3 Evaluation and Test ...........................................................................7 Software Installation Procedures ................................................ 3 Evaluation Board Schematics and Artwork ...................................8 Evaluation Board Setup Procedures........................................... 3 Ordering Information .................................................................... 17 Evaluation Board Hardware ............................................................ 4 Bill of Materials ........................................................................... 17 Power Supplies .............................................................................. 4 REVISION HISTORY 5/15—Revision 0: Initial Version Rev. 0 | Page 2 of 18 EV-ADF4355SD1Z User Guide UG-805 GETTING STARTED SOFTWARE INSTALLATION PROCEDURES EVALUATION BOARD SETUP PROCEDURES See the ADF4355 product page for the EV-ADF4355SD1Z control software. For the software installation procedure, see the PLL Software Installation Guide. To run the software, 1. 2. 3. Click the ADF4355 file on the desktop or from the Start menu. On the Select Device and Connection tab, choose ADF4355 and SDP board (black), and then click Connect (see Figure 2). When connecting the board, allow 5 sec to 10 sec for the label on the status bar to change. 12944-002 Under the File menu, the current settings can be saved to, and loaded from, a text file. Figure 2. Software Front Panel Display—Select Device and Connection EV-ADF4355SD1Z User Guide The EV-ADF4355SD1Z schematics are shown in Figure 7, Figure 8, and Figure 9. The silkscreens for the evaluation board are shown in Figure 10 and Figure 11. R14 C61 R1 R17 RCPOUT C73 R5 POWER SUPPLIES The board is powered by a 6 V power supply connected to the red and black banana connectors. Connect the red connector to a 6 V power supply and the black connector to ground. The power supply circuitry allows the user two or three separate low dropout (LDO) regulators to feed the ADF4355 (using fewer LDO regulators increases the risk of spur contaminated dc feeds). The charge pump and VCO supply pins are driven from a 5 V ADM7150 high performance, low noise regulator. The remaining supplies are powered from 3.3 V ADM7150 high performance, low noise regulator. RVTUNE Figure 3. Loop Filter Placement REFERENCE SOURCE The evaluation board contains a 122.88 MHz differential output TCXO from Vectron International. If preferred, the user may supply either a single-ended or differential reference input to REFINA/REFINB SMA connectors. When using an external reference, remove R12 to disconnect the power rail to the TCXO. To use a single-ended REFINx, connect a low noise 122.88 MHz reference source to SMA REFINB, and connect a 50 Ω terminator to SMA REFINA. Remove Resistor R27 (100 Ω). To use a differential REFINx, connect the differential signal to SMA REFINA and SMA REFINB. The differential REFINA/REFINB SMA connectors can operate to a 500 MHz input frequency. LED1 indicates when the ADF4355 is powered on. Use Switch S1 to switch the 6 V to the board on and off. RF OUTPUT The EV-ADF4355SD1Z has two pairs of SMA output connectors: RFOUTA+/RFOUTA− and RFOUTB+/RFOUTB− (differential outputs). Because they are sensitive to impedance mismatch, connect the RF outputs to equal load impedances. If only one port of a differential pair is used, terminate the complementary port with an equal load terminator (in general, a 50 Ω terminator). LOOP FILTER The loop filter schematic is included in the board schematic in Figure 7. Figure 3 shows the loop filter component placements. For lowest rms phase noise, use the following components (that are inserted on the evaluation board) with a 0.9 mA charge pump current: • • C60 The EV-ADF4355SD1Z requires the SDP-S platform that uses the EVAL-SDP-CS1Z. (SDP-B is not recommended.) C59 RPIN18 EVALUATION BOARD HARDWARE 12944-003 UG-805 In the schematic shown in Figure 7, the REFINA pin of U1 (ADF4355) is connected to SMA REFINB, and the REFINB pin of U1 (ADF4355) is connected to SMA REFINA. This schematic matches the evaluation board connections. DEFAULT CONFIGURATION All components necessary for local oscillator (LO) generation are inserted on the board. This board is shipped with the ADF4355 synthesizer with an integrated VCO, a differential 122.88 MHz reference TCXO, and a 20 kHz loop filter (ICP = 0.9 mA). C60 = 1.2 nF, C59 = 33 nF, C61 = 390 pF, C73 = 10 pF R14 = 1 kΩ, R17 = 3.3 kΩ Narrower loop filter bandwidths have lower spurious signals. Rev. 0 | Page 4 of 18 EV-ADF4355SD1Z User Guide UG-805 EVALUATION BOARD SETUP SDP-S BOARD USB PC VSUPPLY EXTERNAL POWER SWITCH EXTERNAL DC SUPPLY PLL POWER LED EXTERNAL DC GND SPECTRUM ANALYZER SIGNAL GENERATOR LOCK DETECT LED REFERENCE IN/OUT REFINB TCXO LOOP FILTER REFINA REFERENCE (OPTIONAL) ADF4355 (UNDERNEATH BOARD) RFOUTB– RFOUTA– RFOUTB+ 12944-004 RFOUTA+ Figure 4. Evaluation Setup Block Diagram UG-805 EV-ADF4355SD1Z User Guide EVALUATION BOARD SOFTWARE MAIN CONTROLS The Main Controls tab (see Figure 5) selects the RF and user configurable register settings. Consult the register descriptions of the ADF4355 data sheet for details. Default settings are recommended for most registers. In Register 4, program the CP current to match the value used for the loop filter design. 12944-005 In the RF Settings, ensure that VCOout (MHz) equals the VCO frequency. Set the Output divider to give the required RFoutA± (MHz). Ensure that Reference freq equals the applied reference signal. The PFD frequency is calculated from the reference frequency, the R counter, the reference doubler, and the reference divide by 2. Ensure that the value in PFD (MHz) matches the value specified in the loop filter design. Figure 5. Software Front Panel Display—Main Controls Rev. 0 | Page 6 of 18 EV-ADF4355SD1Z User Guide UG-805 EVALUATION AND TEST –70 –70 –80 –80 –90 –90 –100 –100 –110 –110 –120 –120 –130 –130 –140 –140 –150 –150 –160 –160 –170 –170 1k 10k 100k 1M 10M FREQUENCY OFFSET (Hz) Figure 6. Single Sideband Phase Noise SPUR POWER (dBc) 1. PHASE NOISE (dBc/Hz) Install the ADF4355 software (see the PLL Software Installation Guide). 2. Follow the hardware driver installation procedure (Windows XP only). 3. Connect a 50 Ω terminator to RFOUTA−. 4. Connect the EV-ADF4355SD1Z board to the SDP-S board. 5. Connect the 6 V power supply to the banana connectors and power-on the board using S1 (check that LED1 is on). 6. Connect the USB cable from the SDP-S board to the PC. 7. Run the ADF4355 software. 8. Select ADF4355 and SDP board (black) in the Select Device and Connection tab of the software front panel display window (see Figure 2). 9. Click the Main Controls tab, and set the VCOout (MHz) to a frequency of 5000 MHz. 10. Click Write All Registers. 11. Connect the spectrum analyzer to SMA connector RFOUTA+, see Figure 4 for a typical evaluation setup. 12. Measure the output spectrum and single sideband phase noise. Figure 6 shows a phase noise plot of the SMA RFOUTA+ equal to 5 GHz. 12944-006 To evaluate and test the performance of the ADF4355, use the following procedure: Figure 7. Evaluation Board Schematic—Page 1 Rev. 0 | Page 8 of 18 +3.3V RA3 0Ω DNI CA3 1µF DNI GND CA2 1µF DNI GND C2 C1 OUT– 1 GND 5 4 3 2 REFINA GND 5 OUT+ NC GND 2 3 125MHz 6 DNI 7 Y1_ALT VTUNE VCC 1 CA5 1µF DNI GND 4 GND CA4 1µF DNI GND 8 RA2 0Ω DNI REFINA AND REFINB ARE SPACED 15mm CENTER TO CENTER ON PCB CA1 100pF DNI GND 3 R8 51Ω DNI R7 51Ω DNI 1 CE IN LE IN DATA IN CLK IN 1 R16 0Ω TP2 C44 100pF GND GND GND R23 1.8kΩ R25 1.5kΩ GND R24 DNI +3.3V C41 1000pF R10 51Ω DNI REFINB R12 +3.3V 0Ω VP TP6 C50 0.1µF GND CREG2 C48 10pF GND C37 10pF GND C43 10pF GND 29 REFINA 28 REFINB 1 CLK 2 DATA 3 LE 4 CE ADF4355 C46 10pF GND C33 0.1µF GND C53 0.1µF GND C45 0.1µF GND DVDD AVDD2 TP3 TP4 TP5 GND 5 4 3 2 1 C47 1µF GND R9 51Ω +3.3V DNI C42 1000pF R19 1.8kΩ C39 1000pF R27 100Ω C40 1000pF R18 1.8kΩ TP1 E/D GND 6 GND VDD 1 NC Y1 5 4 GND +3.3V R11 0Ω RA4 0Ω DNI RA5 0Ω DNI 122.88MHz 2 CFO FO RA1 0Ω DNI 32 16 27 6 22 GND U1 R3 0Ω DNI GND IN C25 10pF C59 0.033µF R14 1kΩ R35 0Ω 0201 R34 0Ω 0201 R33 0Ω 0201 R32 0Ω 0201 GND L4 4.7nH 0201 DNI GND L7 4.7nH 0201 DNI GND L6 4.7nH 0201 DNI GND L3 4.7nH 0201 DNI C55 0.1µF GND GND AVDD1 R21 0Ω C54 10pF A DS1 R17 3.3kΩ C3 10pF 0201 GND L8 C63 100nH 100pF 0402 0201 VRF1 L5 C64 100nH 100pF 0402 0201 VRF1 L2 C6 7.4nH 10pF 0302 0201 VRF1 R1 0Ω C61 390pF GND L1 7.4nH 0302 VRF1 C23 DNI C60 1600pF GND R4 0Ω C31 10pF GND C29 10pF GND C28 10pF GND 32K243-40ML5 RFOUTB– 32K243-40ML5 RFOUTB+ 32K243-40ML5 RFOUTA– GND RFOUTB– GND RFOUTB+ GND RFOUTA– GND C17 4.7µF GND VREF GND C15 1µF DNI VBIAS VRF1 VRF1 C68 120pF C67 0.1µF C66 1µF C65 120pF C57 120pF C58 0.1µF C21 1µF C56 120pF GND GND RF CHOKE MATED LINE WIDTH’S TRACE WIDTH = 380µm C19 10µF GND VREGVCO RFOUTA+ C30 1000pF GND C27 1000pF GND C26 0.1µF GND LOCK DETECT 32K243-40ML5 RFOUTA+ GND C73 10pF DNI R5 VTUNE 0Ω C R26 0Ω DNI LOOP FILTER PLACE ON BOTTOM SIDE OF PCB SHIELD SIGNALS WITH VIAS GND C12 1µF VVCO GND R22 68Ω R20 0Ω DNI IN MUXOUT MUXOUT RMUX 0Ω 1 VRF C9 1µF GND GND GND CPOUT RCPOUT 0Ω C32 1000pF GND C34 10pF GND GND C35 0.1µF C36 1000pF CREG1 C38 10pF PDRF PDRF R2 10kΩ +3.3V GND ADF4355 30 25 7 5 10 17 20 24 23 19 11 12 14 15 R6 5.1kΩ GND MUXOUT CREG1 CPOUT AVDD VREF VVCO VTUNE VBIAS VREF VREGVCO RFOUTA+ RFOUTA– RFOUTB+ RFOUTB– CREG2 AVDD DVDD VP RSET 9 8 AGND 31 CPGND SDGND 18 AGNDVCO 21 AGNDVCO 13 AGNDRF 26 PDBRF PAD PAD +3.3V 12944-007 UG-805 EV-ADF4355SD1Z User Guide EVALUATION BOARD SCHEMATICS AND ARTWORK AVDD DVDD VRF VRF1 VVCO VP VRVCO G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 G12 G13 G14 G15 G16 G17 G18 G19 G20 G21 G22 G23 G24 G25 G26 G27 G28 G29 G30 G31 G32 G33 G34 G35 G36 1 2 3 4 5 6 7 8 P1 GND MUX/LE IN GND CVVCO 22µF 0Ω RV7 GND CVP 22µF Figure 8. Evaluation Board Schematic—Page 2 GND CVRF1 22µF RV5 0Ω AVDD2 GND CVRF 22µF GND CDVDD 22µF GND CAVDD 22µF GND 1 TP_VP 1 0Ω 1 1 3.3V AVDD2 RV2 0Ω DNI VRF1 VRF DVDD TP_VRF1 RV31 0Ω 1 TP_VRF RV25 0Ω RV20 1 AVDD1 TP_DVDD 1 TP_AVDD2 0Ω RV14 VREF R_VREF DNI GND C4 1µF RV9 0Ω RV10 0Ω DNI GND REF VIN 4 GND PAD EP VR2 ADM7150ACPZ-5.0 1 VREG 3 2 VOUT BYP 7 5 REF_SENSE EN 6 8 RV30 0Ω 0Ω RV26 RV4 DNI RV19 0Ω 0Ω RV15 1kΩ 0Ω GND C16 10µF GND C2 10µF RV3 0Ω RAVDD R3V3 GND C18 1µF RV27 0Ω GND C5 1µF RV16 0Ω LED1 RV28 0Ω DNI GND RV17 0Ω DNI GND GND EN VIN GND VIN 4 GND PAD REF EP PAD 4 EP REF_SENSE REF VOUT 7 8 VR5 ADM7150ACPZ-3.3 1 VREG 3 2 VOUT BYP 7 5 REF_SENSE EN 6 8 5 6 BYP VR3 ADM7150ACPZ-3.3 1 VREG 3 2 R_VREGVCO VREGVCO PLACE VBIAS, VREF 7 VREGVCO RESISTORS CLOSE TO DUT PINS 0Ω VBIAS GND C1 10µF R_VBIAS DNI RV12 0Ω RV8 0Ω RV6 0Ω TP_+3.3V VVCO VP TP_AVDD1 1 TP_VVCO 0 + CVRVCO 22µF + + RV1 GND C22 10µF RV29 0Ω GND C24 + 1µF C20 10µF GND GND C11 10µF RV18 0Ω GND C14 + 1µF C76 100µF GND 6V C75 100µF GND 6V 6V C8 10µF GND GND C10 10µF RV11 0Ω C13 + C74 1µF 100µF GND GND C7 10µF GND GND + G1 G2 G3 G4 G5 G6 G7 G8 G9 G10 G11 G12 G13 G14 G15 G16 1 2 3 4 P2 6V ZD1 GND RPIN18 0Ω DNI VSUPPLY DNI IN IN 1 2 GND VSUPPLY_ALT LE MUX/LE MUXOUT IN IN IN 1 2 3 JUMPER 3 PIN P3 CPOUT SHIELD SIGNALS WITH VIAS ALL THE WAY TO THE DUT PINS. VTUNE PLACE VTUNE, CPOUT AND SW RESISTORS CLOSE TO DUT PINS GND 1 2 GND 5 4 3 2 1 VSUPPLY RVTUNE 0Ω DNI 1 3 3 GND GND C71 22µF 1 S1 EV-ADF4355SD1Z User Guide UG-805 12944-008 EV-ADF4355SD1Z User Guide CN1 RLE 1.5kΩ LE IN DATA IN MUXOUT IN CLK IN RDATA 1.5kΩ VIO_+3.3V RE3 TBD0603 DNI RE1 100kΩ RE2 100kΩ GND GND 8 1 2 3 6 7 RMUXOUT 0Ω RCLK 1.5kΩ UE1 A0 VCC A1 5 SDA_0 A2 SDA SCL WP VSS 4 24LC32A-I/MS SDA 1 SCL GND SCL_0 PDRF CE 1 R28 0Ω DNI IN R29 0Ω DNI IN R30 0Ω DNI GND LE R31 0Ω DNI IN Figure 9. Evaluation Board Schematic—Page 3 Rev. 0 | Page 10 of 18 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 GND CN1 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 GND 12944-009 UG-805 UG-805 12944-010 EV-ADF4355SD1Z User Guide Figure 10. Evaluation Board Silk Screen—Top Side EV-ADF4355SD1Z User Guide 12944-011 UG-805 Figure 11. Evaluation Board Silk Screen—Bottom Side Rev. 0 | Page 12 of 18 UG-805 12944-012 EV-ADF4355SD1Z User Guide Figure 12. Evaluation Board Layer 1—Primary EV-ADF4355SD1Z User Guide 12944-013 UG-805 Figure 13. Evaluation Board Layer 2—Ground Rev. 0 | Page 14 of 18 UG-805 12944-014 EV-ADF4355SD1Z User Guide Figure 14. Evaluation Board Layer 3—Power EV-ADF4355SD1Z User Guide 12944-015 UG-805 Figure 15. Evaluation Board Layer 4—Secondary Rev. 0 | Page 16 of 18 EV-ADF4355SD1Z User Guide UG-805 ORDERING INFORMATION BILL OF MATERIALS Table 1. Reference Designator C1, C2, C7, C8, C10, C11, C16, C20, C22 C9, C12, C21, C47, C66 C4, C5, C13, C14, C18, C24 C17 C19 C25, C28, C29, C31, C34, C37, C38, C43, C46, C48, C54 C26 C27, C30, C32, C36, C39 to C42 C3, C6 C33, C35, C45, C50, C53, C55, C58, C67 C44 C56, C57, C65, C68 C59 C60 C61 C63, C64 C71 C74 to C76 CVP, CVRF, CAVDD, CDVDD, CVRF1, CVVCO, CVRVCO CN1 Description Ceramic multilayer capacitor, X5R Value 10 µF Manufacturer TDK Part Number C2012X5R1E106K085AC Ceramic capacitor, X7R Ceramic capacitor, X8R Ceramic capacitor, X5R Ceramic capacitor, X5R RF/microwave capacitor, C0G 1 μF 1 μF 4.7 μF 10 μF 10 pF Allied Electronics TDK TDK TDK Allied Electronics 0603YC105KAT2A C2012X8R1C105K125AB C1608X5R1C475K080AC C1608X5R1A106M080AC 04025U100GAT2A Ceramic monochip capacitor, X5R Ceramic capacitor, C0G 0402 0.1 μF 1000 pF Murata Murata GRM155R61A104KA01D GRM1555C1H102JA01 Chip ceramic capacitor, RF Ceramic capacitor, X7R 10 pF 0.1 μF Allied Electronics KEMET 0201ZK100GBSTR C0402C104K4RACTU 100 pF 120 pF 0.033 μF 1600 pF 390 pF 100 pF 22 μF 100 μF 22 μF Yageo Murata Murata Murata TDK Murata Allied Electronics Allied Electronics Allied Electronics 2238 867 15101 GRM1555C1H121JA01 GRM188R71C333KA01D GRM1885C1H162JA01D C1608C0G1H391J GRM033R71E101KA01D TCJC226M025R0100 TAJB107K006R TAJB226K016R HRS FX8-120S-SV(21) DS1, LED1 Ceramic capacitor, NP0 Ceramic capacitor, C0G, 0402 Ceramic capacitor, X7R, 0603 Monolithic ceramic capacitor, NP0 Chip capacitor, C0G, 0603 Ceramic capacitor, 0201, X7R Tantalum solid electrolytic capacitor Tantalum chip capacitor Tantalum surface-mount device (SMD) capacitor Printed circuit board (PCB), vertical type receptacle, SMD connector 570 nm SMD (green) LED HSMG-C170 GND PCB single socket (black) connector L1, L2 L5, L8 SCL, SDA, TP1 to TP6, PDRF, TP_VP, MUXOUT, TP_VRF, TP_DVDD, TP_VRF1, TP_VVCO, TP_+3.3V, TP_AVDD1, TP_AVDD2 P3 R1, R4, R5, R12, R21, RV1, RV3, RV5 to RV9, R3V3, RV11, RV12, RV14 to RV16, RV18 to RV20, RV25 to RV27, RV29 to RV31, RMUXOUT R11, R16, RMUX, RCPOUT, R_VREGVCO R14 R17 R18, R19, R23 R2 R22 R25, RLE, RCLK, RDATA Chip inductor Chip inductor PCB test point connector (yellow) Avago Technologies Del-Tron Precision, Inc. Coilcraft Coilcraft Components Corporation R27 R32 to R35 7.4 nH 100 nH 571-0100 0302CS-7N4XJLU 0402CS-R10XJLU TP-104-01-04 Connector PCB, Header 3 Film SMD resistor, 0603 0Ω Molex Multicomp 22-28-4033 MC0603WG00000T5E-TC Thick film chip resistor 0Ω Multicomp 0402WGF0000TCE Film SMD resistor, 0603 Film SMD resistor, 0603 Film SMD resistor,0603 Thick film chip resistor Film SMD resistor, 0603 Precision thick film chip resistor, R0805 High-frequency thin film chip resistor Chip SMD resistor, 0201 1 kΩ 3.3 kΩ 1.8 kΩ 10 kΩ 68 Ω 1.5 kΩ Multicomp Multicomp Multicomp Multicomp Multicomp Panasonic MC 0.063W 0603 1% 1K MC 0.063W 0603 1% 3K3 MC 0.063W 0603 1% 1K8 MC 0.063W 0603 1% 10K MC 0.063W 0603 1% 68R ERJ-6ENF1501V 100 Ω 0Ω Vishay Panasonic FC0402E1000BST1 ERJ-1GE0R00C UG-805 Reference Designator R6 RAVDD RE1, RE2 REFINA, REFINB RFOUTA+, RFOUTA−, RFOUTB+, RFOUTB− S1 U1 UE1 VR2 EV-ADF4355SD1Z User Guide Description STD thick film chip resistor Precision thick film chip resistor, R0805 Precision thick film chip resistor, R0805 PCB coaxial SMA end launch connector PCB SMA RA jack connector Manufacturer Vishay Panasonic Part Number CRCW04025K10FKED ERJ-6ENF1001V 100 kΩ Panasonic ERJ-6ENF1003V Johnson 142-0701-801 Rosenberger 32K243-40ML5 Alcoswitch Analog Devices TT11AGPC-1 ADF4355BCPZ Microchip Technology, Inc. Analog Devices 24LC32A-I/MS Analog Devices ADM7150ACPZ-3.3 Del-Tron Precision, Inc. Vectron International Philips Johnson 571-0500 SW SPST momentary Microwave wideband synthesizer with integrated VCO IC 32 kB serial EEPROM VSUPPLY_ALT 800 mA, ultralow noise high power supply rejection ratio (PSRR), 5.0 V output RF linear regulator 800 mA, ultralow noise high PSRR, 3.3 V output RF linear regulator PCB single socket( red) connector Y1 IC crystal LVPECL, LVDS oscillator ZD1 VSUPPLY BZX84C, 6.8 V, Zener, SOT-23 diode PCB coaxial SMA end launch connector VR3, VR5 Value 5.1 kΩ 1 kΩ ADM7150ACPZ-5.0 VCC6-LAB-122M880000 BZX84-C6V8 DNI 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. 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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. ©2015 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG12944-0-5/15(0) Rev. 0 | Page 18 of 18