ANALOG DEVICES UG-406 handbook
Contents
1. 9 Eyvaltiation and TES TEPORE m 13 Evaluation Board Schematics and Artvvork 14 pill or E E er E RE EHE ERR uu qun sua 22 Related Tk 23 Rev 0 Page 2 of 24 QUICK START GUIDE Follow these steps to quickly evaluate the ADF4150HV device 5 Run the ADF4150HV software 1 Install the ADF4150HV software 6 Connect the spectrum analyzer to the SMA connector 2 Connect the EVAL ADF4150HVEB Z board to the PC VCO_I O 3 Follow the hardware driver installation procedure 7 Measure the results 4 Connect the power supplies as follows a 30 V to banana connectors b 5 V to the test point labeled 5V on the board Rev 0 Page 3 of 24 EVALUATION BOARD HARDWARE The EVAL ADF4150HVEB1Z schematics are shown in Figure 25 Figure 26 Figure 27 and Figure 28 The silkscreen of the evaluation board is shown in Figure 2 POWER SUPPLIES There are two separate supply voltages required for the evaluation board e Banana connectors should be supplied with 30 V This powers the LM317LDG regulator which provides a regulated 29 V to V the charge pump supply of the ADF4150HV and 12 V for the DCYS100200 12 VCO supply V co e The test point labeled 5V must be supplied with 5 V as shown in Figure 24 This powers high precision low noise ADP150AUJZ 3 3 linear regulators to provide 3 3 V to V on the board which supplies the ADF4150HV AV DV pp and SDV pins to V oyr supply for th2. Rev 0 Page 8 of 24 EVALUATION BOARD SOFTWARE The control software for the EVAL ADF4150HVEB1Z is available on the CD included in the evaluation kit To install the software see the Software Installation section To run the software first connect the board to the USB port of the PC and then click the ADF4150HV file on the desktop or in the Start menu note that the revision number may be included in the file name Confirm that USB OK is displayed at the top right corner of the software front panel display window see Figure 19 Otherwise the software has no connection to the evaluation board Reference Frequency a6 MHz de d ke 1 Divider R 1 External VLL range Outputs lep 1240 MHz MHz Mmmm 1000 Fl aximun 2000 Other Options L I h Output EG gt MUX out Three State v Prescaler Auto Lut Div 1 gt Note that when connecting the board it takes about 5 sec to 10 sec for the status label to change If the software is started before the board is connected to USB port an error window opens informing that the USB device was not found and the No USB message is displayed in the top right corner of the software front panel window In this case connect the board to the USB port and click the Connect USB button Uptions Low Spur Mode C Low Nome Mode JrdegoerN when possible Boost Made Frac Mod Register 1 Register 2 Register 3 Register 4 Register 5 O
3. I 10 12 14 16 18 20 22 24 26 28 VTUNE V S Figure 3 Frequency Gain vs Tuning Voltage for DCYS100200 12 VCO ADDITIONAL OPTIONS The VVCO connector can be used as a test point to measure the supply voltage of the VCO in its default configuration It can also be used to provide an external supply for the on board VCO however if an external supply for VCO is used Resistor R31 must be removed to disconnect the connector from the output of the on board voltage regulator External VCO Option Optionally an external VCO can be used In this case it is necessary to remove R32 and insert a 0 O link at R46 to form a connection between the loop filter output and the VTUNE SMA edge mount connector Remove R31 to disconnect the on board VCO from the power supply Remove Resistor R26 to disconnect the output of the on board VCO from the RF signal path and replace Resistors R27 and R28 with 0 O links to ensure operation of the VCO_I O connector as an input from an external VCO VOUT 0 luF VOUT u 10pF LK1 Eb 100pF RRE IN R25 SS G l pF 53 100pF Prescaler for Microwave VCO The board contains the ADF5001 an 18 GHz divide by 4 prescaler for users who want to interface a high frequency microwave VCO to the ADF4150HV For example using a 12 GHz external VCO use the VTUNE SMA as described in the External VCO Option section but in this case connect the VCO output to the PRE_IN SMA connector The prescaler
4. Set the PFD frequency as defined in ADIsimPLL and program the reference frequency to 25 MHz if the on board TCXO is used or to the frequency that has been supplied to the REFIN connector See Figure 24 for the suggested setup Measure the output spectrum Figure 23 shows a 1 4 GHz output RUNS FSUP 29 gnel Source Analyzer E 10 Mz Running Marker 1 T1 3kH 99 97 d ch MH 10 MHz 30 Mi 10676 023 Figure 23 Signal Source Analyzer Display SIGNAL C GENERATOR Q POWER O SUPPLIES POWER O a SUPPLIES REFERENCE OPTIONAL LOOP FILTER C3 VTUNE Figure 24 Typical Evaluation Setup Rev 0 Page 13 of 24 PRESCALER m C1 R1 R2 C2 VVCO SPECTRUM ANALYZER PRESCALER IN N VCO I O N 10676 024 EVALUATION BOARD SCHEMATICS AND ARTWORK os jur 2 LNOAY e 3nT 0 GC lt 3d071 tzo lt 3nT 0 812 Jur ZrO LNOdu AT Zu 32 3 q 4907 lt T KK id ING gy aql S8AHOSIPJu AHOSTPJu gt ING ING 8y Su qqA lt QN5V 1n 0d 1n0d3u La 10 4044 gaa id REES RE ae NI33 dS241 AHOSTPJQOV 1nod2 gt nod 7 ii CE A AN 13S 12 TAS by al LNOXNW 3001 ZZO 3001 HTO b 4nT07c 2 INT UE p aaa ddA c 39 AWLVAND d4uT112 40 TOT ZHWSZ 11V TA Lno IDA A 8I ING QN5V lt yuad C 35 cya viva C n2 Se0 92901 OOA Figure 25 Evalua
5. must be enabled by moving Jumper LK1 into Position B The ADF4150HV should be programmed to accept a 12 GHz 4 frequency or 3 GHz Isolate the VCO tracks from the output of the prescaler by removing C37 It is recommended to interface the prescaler differentially for best performance therefore swap C38 100 pF into the space provided for C35 R33 can be removed as shown in Figure 4 Note the loop filter should be redesigned when changing the VCO and or reference frequencies PHASE NOISE MEASUREMENT With the default settings in band phase noise of close to 101 dBc Hz can be measured This translates to a normalized phase noise floor of 211 dBc Hz To measure the ADF4150HV normalized phase noise specification of 213 dBc Hz increase the loop bandwidth to 50 kHz or greater The simplest way to do this is to change the RSET resistor R4 to 3 3 kO This increases the charge pump current from 400 uA to 618 uA with a corresponding increase in loop bandwidth With the wider loop bandwidth a phase noise of 103 dBc Hz can be measured PN 213 10log 25 MHz 20log 1500 25 103 dBc Hz The variation of phase noise vs PLL loop bandwidth can be modeled in ADIsimPLL C33 100pF amp RF4150HV C33 l pF RF4150HVE 10676 004 Figure 4 Configuration of the Board for External Microwave VCO Using the ADF5001 Prescaler Rev 0 Page 5 of 24 EVALUATION BOARD SETUP PROCEDURE SOFTWARE INSTALLATION Use
6. the highest allowed value for Phase in the Register 1 Settings window depends on current value of the modulus MOD in the Settings section which is calculated based on the data from the Reference section and the Channel Spacing box in the Output Frequency section Click the Cancel button to abandon a register value change and the new value is not retained in the Register x Settings window if it is opened again By clicking the Frac Mod button you can choose different modes of operation including programming of specified integer modulus fractional and output divider values The output frequency and channel spacing are calculated automati cally when the values shown in Figure 21 are entered in the Frac Mod Form window Rev 0 Page 10 of 24 Lock Detect Charge Purnp Other Options LDF AUTO CP Disabled Power Down Three State Double Buffering Dut Div LDP bns Counter Reset Phase Resync Options CLE DIV VALUE 200 FUNDAMEN gt EE MTLD DISABLED 150 750 Laun gt worst case lock time Lock Detect Digital Lock Dete gt Pin Cancel Charge Cancelation FRAL OUT fi gt DIN OF x Cancel x Figure 21 Frac_Mod_Form Window Allows Direct Control of Integer Modulus Fractional and Output Divider Values Rev 0 Page 11 of 24 10676 021 10676 020 00010000010000000000000000000101 o00000000100000000000000000111100 QOOUOODOOOOOOOOOOOOOOOOLTOOL10110011 o000
7. up to 28 V high tuning voltage reference oscillator TCXO of 25 MHz frequency for the reference input power supply connectors and an RF output The ADF5001 prescaler allows for optional direct connection of external microwave VCOs without the need for an active loop filter The evaluation kit also contains software that is compatible with Windows XP and later versions to allow easy programming of the synthesizer A USB port in the PC is required to program the part EVALUATION BOARD dal KU L ra eri raa a E rr z 9 E fal di 3 Ki ui E 2 3 gt VI E Hl zi Pal O ps zen M BI zur tvAL ADFATSOHVEBIZ fev 5 F 10676 001 Figure 1 EVAL ADF4150HVEB1Z PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS Rev 0 Page 1 of 24 TABLE OF CONTENTS Peat tes EE Additional EQUIP ra s n Documents leede Reguired A uu u uu uuu ERR e WE SE Board ME REVISION H ISTOTY EE Qiick O tati Evaluation Board Hardware Power Supplies event eedem EDENDI hate er REVISION HISTORY 5 12 Revision 0 Initial Version Output Spal ee 4 Default Operation Settings eee 4 Additional A aaa Das 5 Phase Noise Medsurement it 5 Evaluation Board Setup Procedure sss 6 Softwate InstalldtiOTi EE 6 Evaluation Board Software
8. Activate f2 When the Activate f2 frequency is reached the sweep is repeated Note that the Sweep option is not allowed if the Activate f1 and Activate f2 frequencies require different settings for the output divider the Out Div box in the Outputs section However the Alternate option allows both frequencies to be achieved with different output divider values Some register settings may need to be set manually Click the Register 1 to Register 5 buttons to open the register settings windows see Figure 20 Click the REGISTERS button to display the binary and hexadecimal values for all registers as shown in Figure 22 When a new register setting value is entered see Figure 20 the relevant Update Rx where x 0 to 5 button becomes red indicating that it must be clicked to program the part with the new value Clicking the Update ALL button programs all register values simultaneously Click the OK button to confirm the new value in the Register x Settings where x 1 2 3 4 or 5 window see Figure 20 Click Update Rx to program the part with the new value The new value is retained in the Register x Settings window if it is opened again If the value entered is outside of the range specified in the ADF4150HV data sheet an error message appears and the field is automatically updated to the lowest or highest value within the allowed range Some limits are changed dynamically based on the values of other registers for example
9. includes any entity other than ADI Customer their employees affiliates and in house consultants The Evaluation Board is NOT sold to Customer all rights not expressly granted herein including ownership of the Evaluation Board are reserved by ADI CONFIDENTIALITY This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI Customer may not disclose or transfer any portion of the Evaluation Board to any other party for any reason Upon discontinuation of use of the Evaluation Board or termination of this Agreement Customer agrees to promptly return the Evaluation Board to ADI ADDITIONAL RESTRICTIONS Customer may not disassemble decompile or reverse engineer chips on the Evaluation Board Customer shall inform ADI of any occurred damages or any modifications or alterations it makes to the Evaluation Board including but not limited to soldering or any other activity that affects the material content of the Evaluation Board Modifications to the Evaluation Board must comply with applicable law including but not limited to the RoHS Directive TERMINATION ADI may terminate this Agreement at any time upon giving written notice to Customer Customer agrees to return to ADI the Evaluation Board at that time LIMITATION OF LIABILITY THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED AS IS AND ADI MAKES NO WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT ADI SPECIFICALLY DISCLAIMS ANY REPRESENT
10. point Black 4 mm banana socket Black test point Coilcraft 0402CS SMD inductor Coilcraft 0402CS SMD inductor Red test point 3 pin SIL header and shorting link End launch 50 O SMA jack SMD resistor SMD resistor SMD resistor 0603 resistor location not inserted SMD resistor SMD resistor 0402 resistor location not inserted 0402 SMD resistor Rev 0 Page 22 of 24 Manufacturer Part Number Vero 20 313137 N A Vero 20 2137 Multicomp MCCA000229 Multicomp MCCA000249 Multicomp MCCA000227 Murata GRM188R61A105KA61D Murata GRM1555C1H101JD01D Taiyo Yuden GRM32RR71H105KA01L N A Kemet C0402C104K4RAC AVX 06035A102JAT2A AVX 04025U100GAT2A Murata GRM1555C1H680JZ01D AVX 04025A121JAT2A Phycomp 2238 867 15129 N A Murata GRM1555C1H102JA01D Taiyo Yuden TMK107BJ105KA T AVX TAJA226K006R Murata GRM155R71H122KA01D Murata GRM1555C1H330JZ01D N A Avago Technologies HSMG C170 Multicomp LL4002G Avago Technologies HSMS C170 N A Deltron 571 0100 01 Vero 20 2137 Coilcraft 0402CS 27NX LU Coilcraft 0402CS 47NX LU N A Harwin M20 9990345 M7567 05 Emerson Network 142 0701 851 Multicomp MC 0 063W 0603 510r Multicomp MC 0 063W 0603 330R Multicomp MC 0 063W 0603 5k1 N A Multicomp MC 0 063W 0603 1K Multicomp MC 0 063W 0603 240R N A Multicomp MC 0 0625W 0402 1 150R Reference Designator R13 R22 R31 R32 R35 R37 R51 R52 R56 R58 R101 R15 R16 R17 R19 R20 R21 R23 R24 R25 R26 R
11. rights reserved Trademarks and registered trademarks are the property of their respective owners UG10676 0 5 12 0
12. 0000000000000100100011000010 pnanpogagaagagagagagadgagagiggagaggiiiriigidgi 0000000000011 100000000000000000000 10400005 Lorena c 000004b5 DOUD a OODOS3E29 00120000 Register Register Register Register Register Figure 22 Registers Window Shows Current Values of All Registers of the Part Rev 0 Page 12 of 24 10676 022 EVALUATION AND TEST To evaluate and test the performance of the ADF4150HV use the following procedure l QU Becr um If using a different VCO and loop filter than provided on the board ensure that a VCO and loop filter are properly inserted on the board If a microwave VCO is going to be used together with the ADF5001 prescaler move Jumper LK1 into Position B to power up the prescaler Use ADIsimPLL to generate the loop filter component values Install the ADF4150HV software Connect the evaluation board to a PC using the supplied USB cable Follow the hardware driver installation procedure that appears If the on board crystal oscillator is used skip this step If an external reference is necessary connect a reference signal to the REFIN edge mount connector Connect the power supply to the board Connect a spectrum analyzer to Connector VCO_I O Run the ADF4150HV software In the software window set the RF output center frequency Figure 23 shows a screenshot of the signal source analyzer operating in phase noise mode taken at a frequency of 1 4 GH2
13. 27 R28 R33 R34 R39 R49 R50 RAO R41 R44 R45 R47 R59 R60 R100 REFIN RFOUT RFOUT T1 T2 U1 U2 U3 U4 U5 U6 U7 U8 U9 U10 USB VCO O VTUNE VVCO VDD VOUT VSUPPLY Y1 ALT Y2 Y3 RELATED LINKS Resource ADF4150HV ADP150 ADP3334 ADL5541 ADF5001 Description Product Page Fractional N Integer N PLL Synthesizer Product Page Ultralow Noise 150 mA CMOS Linear Regulator Product Page High Accuracy Low lo 500 mA anyCAP Adjustable Low Dropout Regulator Product Page 50 MHz to 6 GHz RF IF Gain Block Gain of 15 dB Product Page 4 GHz to 18 GHz Divide by 4 Prescaler Manufacturer Part Number 10 kO 68 O 510 00 180 510 5 23 kQ 2 2 kO 140 kO 78 7 kO 100 kO 100 2 05 kO 470 O at 100 MHz Do not insert Do not insert 25 MHz 24 MHz 1000 MHz to 2000 MHz SMD resistor SMD resistor SMD resistor SMD resistor 0402 SMD resistor 0402 SMD resistor 0402 SMD resistor SMD resistor SMD resistor SMD resistor SMD resistor SMD resistor SMD resistor SMD resistor Ferrite bead End launch 50 O SMA jack Red test point PLL Positive voltage regulator adjustable 3 3 V linear regulator USB microcontroller 64 k 1 C serial EEPROM 50 MHz to 6 GHz RF IF gain block 4 GHz to 18 GHz divide by 4 prescaler Adjustable LDO regulator USB Mini B connector USB OTG End launch 50 O SMA jack Red test point Red 4 mm banana socket SMD temperature compensated crystal o
14. 58 C59 C60 C61 C1 C12 C49 C14 C15 C16 C20 C22 C52 C56 C23 C34 C24 C26 C27 C35 C42 C43 C47 C50 C48 C51 C67 C68 C69 CE CLK D1 D6 D2 DA D5 D3 DATA GND GNDT L1 L2 L3 LD LE MUXOUT PDBRF LK1 PRE_IN R1 R2 R3 R4 R5 R6 R8 R14 R18 R30 R36 R42 R43 R46 R53 R54 R55 R57 R102 R7 R38 R9 R48 R10 R12 R29 R11 Do not insert 2 2 nF 47 nF 1 5 nF 1 uF 100 pF 1 uF Do not insert 0 1 uF 1 nF 10 pF 68 pF 120 pF 12 pF Do not insert 1 nF 1 HF 22 uF 1 2 nF 33 pF Do not insert LL4002G Do not insert 27 nH 47 nH Do not insert 5100 3300 5 1 kO Do not insert 1kO 240 0 Do not insert 1500 Red test point Red test point Black test point 50V X7R SMD ceramic capacitor 50V X7R SMD ceramic capacitor 50V X7R SMD ceramic capacitor Capacitor 0603 1 uF 10 V X5R 50 V COG ceramic capacitor 50V X5R 0805 1 0 uF ceramic capacitor TAJ A capacitor location not inserted 16 V X7R ceramic capacitor 50V NPO ceramic capacitor 50 V NPO ceramic capacitor 50V COG ceramic capacitor 50 V NPO ceramic capacitor 50V NPO SMD ceramic capacitor 0402 capacitor location not inserted Capacitor ceramic 1000 pF 50V COG 0402 Capacitor ceramic 1 0 uF 50 V X5R 0805 6 3 V tantalum capacitor TAJ A case 50V X7R ceramic capacitor 50 V COG ceramic capacitor Red test point Green LED Power rectifier diode Red LED Red test
15. ANALOG DEVICES Evaluation Board User Guide UG 406 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 Evaluation Board for the ADF4150HV PLL Frequency Synthesizer FEATURES General purpose evaluation board for ADF4150HV including octave range VCO loop filter and TCXO Contains the ADF4150HV frequency synthesizer 500 MHz to 3 GHz Contains the ADF5001 prescaler to allow optional connection of external microwave VCOs without need for an active loop filter Accompanying software allows complete control of synthesizer functions from a PC EVALUATION KIT CONTENTS EVAL ADF4150HVEB1Z board CD that includes Self installing software that allows users to control the board and exercise all functions of the device Electronic version of the ADF4150HV data sheet Electronic version of the UG 406 user guide ADDITIONAL EQUIPMENT PC running Windows XP or more recent version Power supply Spectrum analyzer Oscilloscope optional DOCUMENTS NEEDED ADF4150HV data sheet REQUIRED SOFTWARE Analog Devices ADF4150HV software Version 2 or higher ADIsimPLL GENERAL DESCRIPTION This board is designed to allow the user to evaluate the performance of the ADF4150HV frequency synthesizer for phase locked loops PLLs Figure 1 shows the board which contains the ADF4150HV synthesizer loop filter voltage control oscillator VCO of 1 GHz to 2 GHz octave range and
16. ATIONS ENDORSEMENTS GUARANTEES OR WARRANTIES EXPRESS OR IMPLIED RELATED TO THE EVALUATION BOARD INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTY OF MERCHANTABILITY TITLE FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL PROPERTY RIGHTS IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER S POSSESSION OR USE OF THE EVALUATION BOARD INCLUDING BUT NOT LIMITED TO LOST PROFITS DELAY COSTS LABOR COSTS OR LOSS OF GOODWILL ADI S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE AMOUNT OF ONE HUNDRED US DOLLARS 100 00 EXPORT Customer agrees that it will not directly or indirectly export the Evaluation Board to another country and that it will comply with all applicable United States federal laws and regulations relating to exports GOVERNING LAW This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of Massachusetts excluding conflict of law rules 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 1 www analog com Rev 0 Page 24 of 24 2012 Analog Devices Inc All
17. C nro 52 BSn E Az BSh EAE mae tl 8Sn EAE m T ag A jn ABE i zin jnzz 152 052 marr WS zaz Dry 6EMN gSn E AE asn As Hen EAE Ban AS Figure 27 Evaluation Board Schematic Page 3 Rev 0 Page 16 of 24 BAHOST ride gt AHOST rad AS 34001 t jug T 9 2 INO SED gt ING 623 soda TRSSTOY 1 an ETH 123 33001 30001 532 23973 SEH jd nr GES 820 9290 d n d Figure 28 Evaluation Board Schematic Page 4 Rev 0 Page 17 of 24 0 0 92901 O e EKER 5 Figure 30 Layer 2 Ground Plane Rev 0 Page 19 of 24 V 0 92901 900000000900000008000080 eo0e0000000008000 0900000000 567 0600 00 e e e M G G C G o 9090909090090000900000000090000000000000000099 e 60 00 EEKE E 0600000 EEKE J 0600000 EI 0 0 o e ce e ee ee GG G SGGSG G SG S S S SG 6 Figure 31 Layer 3 Povver Plane Rev 0 Page 20 of 24 e60 92901 Figure 32 Layer 4 Solder Side Rev 0 Page 21 of 24 BILL OF MATERIALS Table 1 Reference Designator 5V 3V3_USB 5V_USB AGND C1 C2 C3 C4 C5 C8 C28 C30 C6 C17 C33 C36 C37 C38 C62 C63 C7 C29 C31 C32 C39 C40 C41 C64 C65 C66 C70 C71 C9 C10 C13 C18 C19 C21 C25 C44 C45 C46 C53 C54 C55 C57 C
18. D spur levels seen at the VCO output below 110 dBc If the PFD spur level measured on the VCO output without a buffer is sufficient approximately 80 dBc or if the output signal is taken only from the RF output pins of the ADF4150HV and not from the VCO ouput the ADL5541 is not needed and can be bypassed The device is quite sensitive to impedance unbalance If only one port of the differential pair is used the other should be terminated with a 50 O load The external VCO output should also be terminated in a 50 O load DEFAULT OPERATION SETTINGS This board is shipped with a TCXO that provides a reference frequency of 25 MHz a fourth order low pass filter with 20 kHz bandwidth at Iz 300 A and an octave range VCO with a 1 GHz to 2 GHz frequency range To test the performance of the part for a different frequency range and different loop filter the relevant components on the board must be changed Note that the Synergy VCO tuning sensitivity decreases as the tuning voltage increases see Figure 3 To maintain a constant loop filter bandwidth increase the charge pump value to the maximum of 400 uA for frequencies greater than approximately 1 8 GHz Sec O 24 E 169 mE oy Be elm O as m lt gt Cp gt e kas A e E lt rv KU a N m lt DO ng 10676 002 Figure 2 Evaluation Board Silkscreen Rev 0 Page 4 of 24 S x III WW A N TST M ERZERNEREENZEEN
19. HV Software Installation Logo Testing 10676 008 4 Click Continue Anyway Rev 0 Page 6 of 24 GG ADF4150HV Installation Complete ADF4150HV has been successfully installed Click Close to exit 10676 009 Figure 9 Windows XP ADF4150HV Software Installation Installation Complete 5 Click Close Windows Vista and Windows 7 Software Installation Guide Welcome to the ADFA150HV Setup Wizard The installer will quide you through the steps required to install ADF4150HV on your computer WARNING This computer program is protected by copyright law and international treaties Unauthorized duplication or distribution of this program or any portion of it may result in severe civil or criminal penalties and will be prosecuted to the maximum extent possible under the law Cancel Figure 10 Windows Vista 7 ADF4150HV Software Installation Setup Wizard 1 Click Next 10676 010 Select Installation Folder The installer will install amp DF4150H to the following folder To install in this folder click Next To install to a different folder enter it below or click Browse Folder C Program Files x86 Analog Devices ADFAT50HVA Install ADF4150HV for yourself or for anyone who uses this computer 9 Everyone Just me Figure 11 Windows Vista 7 ADF4150HV Software Installation Select Installation Folder 10676 011 2 Choose an installation directory and click Next Co
20. e ADF4150HV RF outputs pull up and to the ADL5541 buffer which improves PFD spur levels at the VCO output The D3 LED indicates when the ADF4150HV is powered INPUT SIGNALS The reference signal is necessary for proper operation of the synthesizer It can be sourced from a provided TCXO or from an external generator which can be connected to the REFIN edge mount connector To use an external reference generator it is necessary to remove R101 and R100 to disconnect the TCXO from the reference input and from the supply R102 can be popu lated with a 50 O resistor to adjust the impedance matching of the evaluation board to the external reference source Digital SPI signals are supplied from the Cypress microcontrol ler U6 which is used for communication with the USB port of the PC OUTPUT SIGNALS All components necessary for LO generation are inserted on the board The PLL is made up of the ADF4150HV synthesizer a fourth order passive loop filter and the octave range VCO The loop filter is inserted between the charge pump output and the VCO input as shown in Figure 28 If replacing the VCO a VCO in a T package or similar must be used The VCO output is available at the edge mount SMA connector VCO_I O and the differential RF output of the part is connected to the RFOUT and RFOUT edge mount SMA connectors A buffer the ADL5541 is placed between the VCO output and the ADF4150HV RF pin which significantly lowers the PF
21. lity 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
22. nfirm Installation The installer is ready to install ADF4150HV on your computer Click Next to start the installation 10676 012 Figure 12 Windows Vista 7 ADF4150HV Software Installation Confirm Installation Click Next 157 Windows Security E ax Would you like to install this device software Name Analog Devices Inc Universal Serial Bus P s Publisher Analog Devices B V Always trust software from Analog Devices B V Y You should only install driver software from publishers you trust How can I decide which device software is safe to install 10676 013 Figure 13 Windows Vista 7 ADF4150HV Software Installation Start Installation Click Install Installation Complete ADF4150HV has been successfully installed Click Close to exit Cancel lt Back Close Figure 14 Windows Vista 7 ADF4150HV Software Installation Installation Complete 10676 014 Click Close Rev 0 Page 7 of 24 Windows XP Driver Installation Guide Ell ion Found New Hardware Wizard Welcome to the Found New Hardware Wizard A The software you are installing has not passed Windows Logo testing to verify its compatibility with Windows Ab T ell me why this testing rs important Windows will search for current and updated software by looking on your computer on the hardware installation CD or on the Windows Update Web site with your permission Read our privacy policy Co
23. ntinuing your installation of this software may impair or destabilize the correct operation of your system either immediately or in the future Microsoft strongly recommends that you stop this installation now and contact the software vendor for software that has Can Windows connect to Windows Update to search for passed Windows Logo testing software O Yes now and every time connect a device O No not this time Click Next to continue E 2 Continue Anyway a Figure 17 Windows XP USB Driver Installation Logo Testing Figure 15 Windows XP USB Driver Installation Found New Hardware Wizard 3 Click Continue Anyway 1 Choose Yes this time only and click Next Found New Hardware Wizard Found New Hardware Wizard Completing the Found New Hardware Wizard The wizard has finished installing the software for This wizard helps you install software for ADF4xxx USB Adapter Board ADF4xxx USB Adapter Board a If your hardware came with an installation CD lt 6 or floppy disk insert it now What do you want the wizard to do O Install from a list or specific location Advanced Click Finish to close the wizard Click Next to continue oo Figure 16 Windows XP USB Driver Installation Install Options 2 Click Next 10676 016 Figure 18 Windows XP USB Driver Installation Complete Installation 4 Click Finish Note that Figure 16 may list Analog Devices RFG L Eval Board instead of ADF4xxx USB Adapter Board
24. ossible under the law 10676 005 Cancel Figure 5 Windows XP ADF4150HV Software Installation Setup Wizard Click Next ji ADF4150HV ml Select Installation Folder I The installer will install ADF4150HV to the following folder To install in this folder click Next To install to a different folder enter it below or click Browse Folder E Program Files Analog DevicestADF4150HV4 Install ADF4150HV for yourself or for anyone who uses this computer 5 Everyone O Just me Ciro sim Figure 6 Windows XP ADF4150HV Software Installation Select Installation Folder 10676 006 2 Choose an installation directory and click Next GG ADF4150HV Confirm Installation The installer is ready to install ADF4150HV on your computer Click Next to start the installation Figure 7 Windows XP ADF4150HV Software Installation Confirm Installation 10676 007 3 Click Next Software Installation A The software you are installing haz not passed Windows Logo testing to verify its compatibility with Windows lt P T ell me why this testing iz important Continuing your installation of this software may impair or destabilize the correct operation of pour system either immediately or in the future Microsoft strongly recommends that you stop this installation now and contact the software vendor for software that has passed Windows Logo testing Continue Anyway ST Figure 8 Windows XP ADF4150
25. scillator SMD crystal VCO Rev 0 Page 23 of 24 Multicomp MC 0 063W 0603 OR Multicomp MC 0 063W 0603 10K Multicomp MC 0 0625W 0402 1 68R Multicomp MC 0 063W 0402 51R Multicomp MC 0 0625W 0402 1 OR Multicomp MC 0 0625W 0402 1 18R Multicomp MC 0 063W 0402 51R Multicomp MC 0 063W 0603 5K23 Multicomp MC 0 063W 0603 2k2 Multicomp MC 0 063W 0603 1 140K Multicomp MC 0 063W 0603 1 78K7 Multicomp MC 0 063W 0603 100K Multicomp MC 0 063W 0603 10R Multicomp MC 0 063W 0603 2K05 Wuerth Elektronik 7427 92642 Emerson Network 142 0701 851 N A Analog Devices ADF4150HVBCPZ On Semiconductor LM317LDG Analog Devices ADP150AUJZ 3 3 Cypress Semiconductor CY7C68013A 56LFXC Microchip Technology 24LC64 ISN Analog Devices ADL5541ACPZ Analog Devices ADF5001BCPZ Analog Devices ADP3334ARMZ Molex 54819 0578 Emerson Network 142 0701 851 N A Deltron 571 0500 01 Rakon TXO225B ECS International ECS 240 12 20A TR Synergy Microwave Corp DCYS100200 12 NOTES lC refers to a communications protocol originally developed by Philips Semiconductors now NXP Semiconductors ESD Caution A ESD electrostatic discharge sensitive device Charged devices and circuit boards can discharge without detection Although this product features patented or proprietary protection ia 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 functiona
26. the following steps to install the software l Install the Analog Devices ADF4150HV software by double clicking ADF4150HV Setup msi If you are using Windows XP follow the instructions in the Windows XP Software Installation Guide section see Figure 5 to Figure 9 If you are using Windows Vista or Windows 7 follow the instructions in the Windows Vista and Windows 7 Software Installation Guide section see Figure 10 to Figure 14 Note that the software requires Microsoft Windows Installer and Microsoft NET Framework 3 5 or higher The installer connects to the Internet and downloads Microsoft NET Framework automatically Alternatively before running the ADF4150HV Setup msi both the installer and NET Framework can be installed from the CD provided Connect your board by USB If you are using Windows XP follow the steps in the Windows XP Driver Installation Guide section see Figure 15 to Figure 18 On Windows Vista or Windows 7 the drivers install automatically Windows XP Software Installation Guide l ilz ADF4150HV Welcome to the ADF4150HY Setup Wizard The installer will guide you through the steps required to install ADF4150HV on your computer WARNING This computer program is protected by copyright law and international treaties Unauthorized duplication or distribution of this program or any portion of it may result in severe civil or criminal penalties and will be prosecuted to the maximum extent p
27. tion Board Schematic Page 1 Rev 0 Page 14 of 24 INGA a xt SCH OOA OOA Ant 0 3 ant 872 ING teu AN L dnt 3 dnt 85 LN an 992 dA A N ant tto QJAA FAN AN E EA Qnov ZE AS LON CAS Fra 20rZ 6y 40 2 Ska oz00p sa ING OEY 5034 rEWT 95c00r11 P gt va d N an ICH A dn P922 401 653 A LN int t 301 ty 970 9901 2Y18 VNVNY ONS 527007 za Q3H VNVNYG8 ATAN SA Figure 26 Evaluation Board Schematic Page 2 Rev 0 Page 15 of 24 Ez nis geo H ZA Zut Ene i su F dor 952 sn EAE as En Ind LM rm Ebu A E A NES i l l l l i l l l l xO8 N331D5 L 301 ff i 103 5dd Ae i asn eae Qa te taa bad 220 9290 qwen dit A i 40 55H antro 39 1 0 gorro goto antro JOT O anro 193 WER 552 B59 Ekel or ttl und 224 Yes 03 aso 3 auc aed n soy Dundnuzaq dL ASNM EAE 35 4904 quedes CDAD FJ ee ad T vie dd 5 gasu 1NOTWLX EFT LM m YMIS a TACY ou 0415 0408 ap Sean A Wiva Td of i Yat eee aj IOV de 2110 ONALMd 9 Yd EIN Ta d li 3501411150 140v0414 5Yd ET ve ss OWLS Oudvod 4 pva s AA E 3915 2w3 di dd AN Ya 103 90 OLNI OYd Itda edd E q qarqa za43 2 gu ia d 2t 501 004 sr lrgi t8d 1004715 504 584 LC bqJ FBd E pr m 3001 4001 eu tb aen ZA
28. utput Frequency le Activate Fl 7 Activate fz Channel Spacing MHz MHz kHz 1400 1600 n Dynamic Approximate Delay ag ms e Stop 7 Alternate Sweep Settings Output Frequency 1400 MHz VLL frequency 1400 MHz Prescaler Output Divider 1 VLL Channel Spacing 00 kHz INT Dt FRAC MOD 125 A 1 Phase 1 4 5 PFO frequency 25 MHz DEVICES Disconnect REGISTERS USE Update AU Update H1 Update R2 Update R3 Update A4 Update H5 10676 019 Figure 19 Software Front Panel Display Rev 0 Page 9 of 24 Use the Frequency text box in the Reference section to set the correct reference frequency The default reference on the software window is at 25 MHz and matches the frequency of the TCXO present on the board Use the Output Frequency section to control the output frequency To achieve single tone on the RF output type the desired output frequency in the Activate f1 text box in mega hertz and ensure that Stop is selected in the Dynamic section under Output Frequency Selecting the Alternate option causes the frequency on the VCO output to switch between the Activate f1 and Activate f2 values The delay time between frequency switches is controlled by the Approximate Delay option The third option of the Dynamic section Sweep allows the output frequency to constantly change with the frequency step set by Channel Spacing starting from Activate f1 until it reaches
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ANALOG DEVICES UG 406 handbook