ADRF6620-EVALZ

ADRF6620-EVALZ User Guide UG-558 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 ADRF6620, a 700 MHz to 2700 MHz Rx Mixer with Integrated IF Amplifier, Fractional-N PLL, and VCO FEATURES GENERAL DESCRIPTION Full-featured evaluation board for the ADRF6620 On-board USB for SPI control Single +5 V operation C# software interface for serial port control The ADRF6620 is a highly integrated active mixer and synthesizer ideally suited for next generation communication systems. The feature rich device consists of a high linearity broadband active mixer, an integrated fractional-N phaselocked loop (PLL), a low phase noise multicore voltage controlled oscillator (VCO), and an IF digitally programmable variable gain amplifier (DGA). In addition, the ADRF6620 also integrates a 4:1 RF switch, an on-chip tunable RF balun, programmable RF attenuator, and LDOs. This highly integrated device fits within a small 7 mm × 7 mm footprint. EVALUATION KIT CONTENTS ADRF6620 evaluation board USB cable ADDITIONAL EQUIPMENT NEEDED Analog signal sources Power supply (6.0 V, 2.5 A) PC running Windows® 98 (2nd ed.), Windows 2000, Windows ME, Windows XP, or Windows 7 USB 2.0 port, recommended SOFTWARE NEEDED ADRF6620 control software ONLINE RESOURCES This user guide describes the ADRF6620-EVALZ evaluation board, which provides all of the support circuitry required to operate the ADRF6620 in its various configurations. The application software used to interface with the device is also described. The ADRF6620 data sheet, available at www.analog.com, which provides additional information, should be consulted when working with this evaluation board. MXOUT+ MXOUT– IFIN+ IFIN– ADRF6620 data sheet ADRF6620-EVALZ user guide ÷8 ÷4 ÷2 ×1 ×2 LOIN+ LOIN– PFD CHARGE CP PUMP + ÷1, ÷2, ÷4, ÷8 VTUNE Figure 1. ADRF6620 Evaluation Board PLEASE SEE THE LAST PAGE FOR AN IMPORTANT WARNING AND LEGAL TERMS AND CONDITIONS. Rev. 0 | Page 1 of 16 LDO 2.5 V SERIAL PORT INTERFACE LDO VCO LDO 3.3V DECL4 DECL1 LOCK_DET VPTAT SCAN ÷2 CS SCLK SDIO MUXOUT LOIN+ LOIN– VTUNE CP DECL2 FRAC N = INT + MOD 11493-001 REFIN IFOUT1– IFOUT1+ IFOUT2– IFOUT2+ ADRF6620 RFIN0 RFIN1 RFIN2 RFIN3 UG-558 ADRF6620-EVALZ User Guide TABLE OF CONTENTS Features .............................................................................................. 1 RF Inputs ........................................................................................3 Evaluation Kit Contents ................................................................... 1 LO Input/Output ...........................................................................3 Additional Equipment Needed ....................................................... 1 Mixer Output .................................................................................4 Software Needed ............................................................................... 1 IF Variable Gain Amplifier ..........................................................5 Online Resources .............................................................................. 1 Evaluation Board Control Software ................................................6 General Description ......................................................................... 1 Software Requirements .................................................................6 Revision History ............................................................................... 2 ADRF6620 Evaluation Software ..................................................6 Evaluation Board Hardware ............................................................ 3 Schematics and Artwork ..................................................................9 Introduction .................................................................................. 3 Bill of Materials ............................................................................... 13 Power Supply ................................................................................. 3 REVISION HISTORY 8/13—Revision 0: Initial Version Rev. 0 | Page 2 of 16 ADRF6620-EVALZ User Guide UG-558 EVALUATION BOARD HARDWARE INTRODUCTION LO INPUT/OUTPUT The ADRF6620 evaluation board provides all of the support circuitry required to operate the ADRF6620 in its various modes and configurations. Figure 2 shows the typical bench setup used to evaluate the performance of the ADRF6620. The ADRF6620 offers two alternatives for generating the differential LO input signal: externally via a high frequency low phase noise LO signal or internally via the on-chip Fractional-N synthesizer. In either case, the differential LO signal can be routed off chip to the SMA connector labeled LO_Output. POWER SUPPLY The ADRF6620 evaluation board requires a single +5 V power supply. Connect the positive power terminal to one of the red test loops, either VCC1 or VCC2. The ADRF6620 consumes less than 400 mA at power up with the default register settings. RF INPUTS The high isolation 4:1 RF switch and on-chip tunable RF balun enables the ADRF6620 to support four single-ended 50 Ω terminated RF inputs. The 4:1 RF switch can be controlled serially via the SPI port or parallel control using switches S1 and S2. The default configuration is parallel control using the switches. The operational frequency range of the RF inputs is from 700 MHz to 2700 MHz and the inputs should be accoupled. For internal LO configuration using the on-chip Fractional-N synthesizer, apply a low phase noise reference signal to the REFIN connector. The PLL reference input can support a wide frequency range since the division or multiplication blocks can be used to increase or decrease the reference frequency to the desired value before it is passed to the phase frequency detector (PFD). The integrated synthesizer enables continuous LO coverage from 350 MHz to 2850 MHz. For optimum performance using an external LO source, the LO inputs, LOIN and LOIP, should be driven differentially. Unless an ac-coupled balun/transformer is used to generate the differential LO, the inputs must be ac-coupled. The input impedance of the differential LO signals is 50 Ω. RF INPUTS USB CONNECTION TO COMPUTER +5V POWER SUPPLY MIXER OUTPUT LO OUTPUT EXTERNAL LO INPUT PLL REF INPUT IF AMP OUTPUT Figure 2. ADRF6620 Typical Measurement Setup Rev. 0 | Page 3 of 16 11493-002 IF AMP INPUT UG-558 ADRF6620-EVALZ User Guide MIXER OUTPUT transformer from Mini-Circuits, TC4-1W+, to translate the 250 Ω output impedance of the mixer to 50 Ω (see Figure 3). The mixer outputs of the ADRF6620 are routed off chip for external biasing and optional low-pass filtering. The output pins, MXOP and MXON, require supply biasing to +5 V and the mixer’s differential output impedance is approximately 255 Ω. Refer to the ADRF6620 data sheet for the equivalent mixer output impedance and recommendations on the interstage filter design. The default configuration of the evaluation board has the mixer outputs ac-coupled to the IF VGA inputs. Attention needs to be paid to the IF frequency of the mixer output and the bandwidth of the transformer. The 1 dB bandwidth of the TC4-1W+ is limited to 100 MHz and the 3 dB band is 800 MHz. Alternatively, the 4:1 impedance transformer can be replaced with a 1:1 transformer, such as the TC1-1-13M+, and the L-resistor network (R33, R34, R32, and R10) can be used for impedance matching. The tradeoff to this approach is that the L-network is essentially a voltage divider that results in power loss. The ADRF6620 evaluation board provides the option to monitor the front-end of the ADRF6620 independently from the variable gain IF amplifier by routing the differential mixer outputs to the SMA connectors. To achieve this configuration, remove L5 and L6 and populate C65 and C66 with 0.1 µF. The MXOP and MXON pins are routed to a 4:1 impedance DNI C65 0.1µF R33 0Ω R0402 AGND MXOP DNI C66 0.1µF T1 TC4–1W+ R34 R0402 DNI C68 0.1µF C0402 AGND 1 MXOUT 5 4 3 2 AGND AGND R32 0Ω R0402 R10 R0402 DNI AGND Figure 3. Mixer Output Schematic Rev. 0 | Page 4 of 16 11493-003 MXON If using a 1:1 transformer, populate R32 = R33 = 113 Ω and R34 = R10 = 28 Ω. This configuration results in a voltage loss of −19.6 dB. ADRF6620-EVALZ User Guide UG-558 IF VARIABLE GAIN AMPLIFIER impedance of the signal generator will reflect as 150 Ω at the IF amplifier’s input after the TCM3-1T+. The final IF amplifier stage amplifies the mixer outputs by 3 dB to 15 dB in 0.5 dB steps. The default configuration of the evaluation board has the mixer outputs routed to the IF amp inputs, however the evaluation board offers the flexibility of isolating the IF amp independently. To evaluate the amplifier independently of the mixer, remove C18 and C19 and populate C70 and C71 with 0.1 µF. This same principle also holds true for the amplifier’s output where the spectrum analyzer’s impedance translates to 150 Ω after the transformer. If the IF amplifier is to be terminated with a source or load impedance different from what an impedance transformer can offer, a 1:1 transformer and matching network can be used. By design, the IF amplifier has been optimized for OIP3 when the source and load impedance are terminated with 150 Ω. This matched condition can be achieved by using 3:1 impedance transformers at both the IF amplifier’s input and output (see Figure 4 and Figure 5). The 50 Ω source If the load or the source resistance is not equal to 150 Ω, refer to the ADRF6620 data sheet for equations which can be used to determine the resulting gain and input/output resistances. T5 TCM3–1T+ 1 6 2 3 4 5 4 IFIN R37 R0402 DNI 1 2 AGND 3 AGND C69 0.1µF C0402 R40 C70 0Ω R0402 0.1µF C0402 IFIP AGND AGND R41 C71 0Ω R0402 0.1µF C0402 IFIN 11493-004 R38 R0402 DNI AGND Figure 4. IF Amplifier Input Schematic VCC AGND L1 1µH L0805 L2 1µH L0805 C63 0.1µF C0603 AGND FILTER+ R19 0Ω DNI R35 IFOUT+ C7 0.1µF C0402 75Ω SE 150Ω DIFFERENTIAL 0Ω R48 0Ω R25 33Ω DNI AGND R39 33Ω DNI 1 C8 0.1µF C0402 0Ω FILTER– DNI R56 0Ω 0Ω 50Ω SE IFOUT+ 1 R52 0Ω 6 IFOUT+ 5 4 3 2 AGND 2 3 C12 0.1µF C0402 AGND 4 T2 TCM3–1T+ R49 0Ω R36 IFOUT– DNI R50 R20 0Ω DNI DNI R51 0Ω AGND IFOUT– 1 IFOUT– 5 4 3 2 AGND Figure 5. IF Amplifier Output Schematic Rev. 0 | Page 5 of 16 11493-006 C64 0.1µF C0603 UG-558 ADRF6620-EVALZ User Guide EVALUATION BOARD CONTROL SOFTWARE The ADRF6620 evaluation board is configured with a USBfriendly interface to allow programmability of the ADRF6620 registers. SOFTWARE REQUIREMENTS These instructions describe how to install the ADRF6620 control software, as well as the Cypress generic USB driver, onto a Windows XP, Vista, or Windows 7 computer running either a 32-bit or 64-bit operating system. Install the necessary software before plugging the USB cable to the computer. 1. In the extracted folder, ADI_RFG_Drivers, run the ADI_RFG_Drivers.exe file. Running this file allows the installation of the Cypress CyUSB.sys driver as a verified, signed driver. 2. Run the file ADRF6620_install.exe from the extracted .zip file. An icon should appear on your desktop with the Analog Devices, Inc., logo, labeled ADRF6620. 3. Install the USB driver once the installer is finished. Plug the RFG USB adapter into the PC using a USB cable. 4. In either Windows XP or Vista, right click on My Computer and select Properties. Next, in Vista or Windows 7, select the Device Manager option. In XP, select the hardware tab and then Device Manager. 5. In Device Manager, select the last category, Universal Serial Bus Controllers. There will be an entry with either a yellow flag (for unknown device) or ADF4xxx USB Driver (if you have installed the previous ADRF6x0x or Analog Devices Limerick PLL software). Right click on this device and select update driver. Browse to select the directory C:\Program Files\ADRF6620_customer_software. 6. Click Next to complete the driver installation successfully. ADRF6620 EVALUATION SOFTWARE The ADRF6620 evaluation software offers a block diagram view of how the registers affect the major functional blocks of the ADRF6620. The main screen of the evaluation software is shown in Figure 6. Before reading or writing to the registers, validate the USB connection by reading the USB indicators at the lower left corner of the software. The DUT to GUI button reads the register values from the device and updates the user interface. An automatic write to the chip is initiated every time a register value is changed from the user interface. The PLL synthesizer blocks perform background calculations; the user need only specify the PLL reference and desired LO frequency and the software calculates and sets the INT, FRAC, and MOD values accordingly. The green boxes require user input while the yellow boxes are read only. The Engineering tab, as shown in Figure 7, allows specific reads and writes to the individual registers. Decimal format is required when entering data to the address and data fields. Rev. 0 | Page 6 of 16 ADRF6620-EVALZ User Guide INPUT PLL REFERENCE UG-558 PFD FREQ AUTOMATICALLY CALCULATED INPUT DESIRED LO FREQ INCREMENT OR DECREMENT LO FREQ BY STEP SIZE VCO FREQ AUTOMATICALLY CALCULATED SYNTHESIZER VALUES AUTOMATICALLY CALCULATED USB CONNECTION INDICATOR READS REGISTERS FROM .TXT FILE READS VALUES FROM DUT AND UPDATES THE INTERFACE Figure 6. Main Screen of the ADRF6620 Control Software with Default Power-Up Settings Rev. 0 | Page 7 of 16 11493-007 WRITE REGISTERS TO .TXT FILE ADRF6620-EVALZ User Guide 11493-008 UG-558 Figure 7. Engineering Tab of the ADRF6620 Control Software Rev. 0 | Page 8 of 16 ADRF6620-EVALZ User Guide UG-558 SCHEMATICS AND ARTWORK CP_OUT YEL 1 CPOUT R11 R23 R26 0 10K 10K C57 22PF 1 VTUNE 1 R28 VTUNE 0 R12 3K C59 6.8PF L9 L7 DNI 0 R27 TBD0402 DNI C82 TBD0402 C84 TBD0402 DNI DNI R66 LOIP DECL_VCO 0 DNI L8 L10 L12 TBD0603 TBD0603 TBD0603 DNI DNI DCL_VCO DECL_VCO C13 0.1UF C0402 C9 10UF 3V3_XTAL 1 RED MUXOUT YEL 1 R59 0 C73 0.1UF C0402 C3 0.1UF Y2 VCC GND 3 OUTPUT YEL 38.4MEGHZ 5 C14 100PF C11 100PF C0402 C5 0.1UF C0402 R4 YEL C28 100PF C0402 PAD 48 47 46 45 44 43 42 41 40 39 38 37 C10 100PF CPOUT DECL_2P5 1 VCC2 VCC IFOP IFON RED 1 1 2 3 4 5 6 7 8 9 10 11 12 VPOS1 DECL1 CP GND GND REFIN DECL2 IFOUT1+ IFOUT1IFOUT2+ IFOUT2VPOS2 VPOS3 VPOS4 IFINIFIN+ GND MXOUT+ MXOUTGND LOOUT+ LOOUTGND VPOS5 C6 100PF C0402 C15 0.1UF DECL_LO C30 0.1UF C0402 C43 10UF C17 100PF GND RFIN0 GND GND RFIN1 GND GND RFIN2 GND GND RFIN3 GND 36 35 34 33 32 31 30 29 28 27 26 25 RFIN0 C40 RFIN1 100PF RFIN2 C41 RFIN3 100PF R15 3V3_USB S1 0 0.1UF 3 2 09-03-201-02 1 C26 0.1UF C29 100PF 0.1UF 0 S2 09-03-201-02 3 1 2 RFSW1 C61 0.1UF C20 150PF C24 LOON 2 1 GND3 1 BLK L3 L4 470NH C21 150PF Rev. 0 | Page 9 of 16 3 1 LOOUT+ 5 4 3 2 2 L13 L5 C85 TBD0402 0 ohms DNI MXOP L6 39NH C86 TBD0402 C18 IFIN 0.1UF C78 TBD0402 VCC VCC Figure 8. Schematic SEC 4 C62 0.1UF 39NH C81 TBD0402 C83 TBD0402 PRI NC 470NH GND4 1 BLK 5 4 3 2 100PF MXON GND2 1 BLK RF3 1 T4 TC1-1-43A+ 6 1 C25 VCC VCC 5 4 3 2 VCC 100PF IFIN IFIP R16 RF2 1 100PF LOOP C76 RF1 C27 VCC RFSW0 1 5 4 3 2 100PF ADRF6620ACPZ RF0 5 4 3 2 C42 C75 0.1UF 1 100PF VCC C54 100PF GND1 1 BLK 2 1 U4 13 14 15 16 17 18 19 20 21 22 23 24 C2 0.1UF C0402 C72 3 NC LOIN VTUNE PAD GND VTUNE DECL4 LOIN+ LOINMUXOUT SDIO SCLK CSB RFSW1 RFSW0 DECL3 1 2 3 49.9 A COM B YEL C67 SEC 4 0 C32 JP1 2 3 4 5 100PF PRI R58 SDIO SCLK CSB RFSW1 RFSW0 DECL_3P3 10UF REFIN 1 T3 TC1-1-43A+ 6 1 1 C1 3PIN_SOLDER_JUMPER 5 4 3 2 R67 0 A C SML-210MTT86 4 NC 1 LOIN+ CR3 R9 1.00K VCC1 RED VCC ENABLE/DISABLE_N DNI SHARE PADS 0 100PF C16 100PF C0402 1 0 R57 100PF C23 1 R68 DNI C22 YEL 2 LOIN+ LOIP DNI 6 LOIN- TBD0603 DNI DNI C79 TBD0402 C58 2700PF L11 TBD0603 TBD0603 0 DNI C60 22PF R29 5 4 3 2 REPLACE WITH NEW 0603CS R65 LOIN LOIN- L14 0 ohms DNI DNI C19 0.1UF IFIP 11493-011 YEL UG-558 ADRF6620-EVALZ User Guide MIXER OUTPUT TC4-1W+ TC1-1-13M+ R32=0 OHMS R32=113 OHMS R33=0 OHMS R33=113 OHMS R34=DNI R34=28 OHMS R10=DNI R10=28 OHMS DNI C65 R33 MXON 0 R0402 0.1UF T1 TC4-1W+ R34 TBD0402 DNI R0402 DNI MXOP C66 MXOUT 1 C68 0.1UF C0402 5 4 3 2 R32 0 R0402 0.1UF R10 TBD0402 DNI R0402 IF AMP INPUT IFIN 6 1 C70 R40 4 0.1UF C0402 DNI 2 2 3 4 5 IFIP 0 R0402 R37 TBD0402 1 T5 R0402 C69 0.1UF C0402 3 TCM3-1T+ C71 R41 IFIN 0 R0402 R38 TBD0402 0.1UF C0402 DNI R0402 IF AMP OUTPUT VCC C64 0.1UF C0603 L1 1UH L0805 L2 1UH L0805 C63 0.1UF C0603 FILTER+ R19 0 C7 DNI R35 IFOP 0 0.1UF C0402 DNI DNI R50 R56 0 0 50 OHM SE IFOUT+ 1 IFOUT+ 5 4 3 2 R25 33 R48 0 DNI 1 R52 0 T2 6 75 OHM SE C12 0.1UF C0402 150 OHM DIFFERENTIAL R39 33 2 3 4 TCM3-1T+ R49 0 DNI DNI C8 R36 IFON 0.1UF C0402 R51 IFOUT- 1 IFOUT- 0 0 5 4 3 2 R20 0 FILTER- DNI L15 L17 L19 24NH 24NH 24NH DNI DNI DNI 1 FILTER+ C77 2PF C80 1.8PF DNI DNI B_IFOUT+ DNI R30 DNI 5 4 3 2 75 R31 75 L16 L18 L20 24NH 24NH 24NH DNI DNI DNI DNI 1 B_IFOUTDNI 5 4 3 2 11493-012 FILTER- Figure 9. Mixer Output and IF Amplifier Input/Output Schematics Rev. 0 | Page 10 of 16 ADRF6620-EVALZ User Guide UG-558 3V3_USB USB: SERIAL CONTROL R 46 C35 0.1UF 3V3_USB C39 0.1UF C45 0.1UF C46 0.1UF 0 C48 0.1UF XTALIN C33 R3 78.7K Y1 24.000000MEGHZ 0.1UF DGND A C SML-210MTT86 R45 2K DGND U2 8 1 2 3 6 7 VC C A0 C50 R5 2K A2 SD A 0.1UF W C _N GND DGND AVC C VC C XTALO U T D PLU S D M IN U S IFC LK C LKO U T C TL0_FLAG A C TL1_FLAG B 15 16 SCL SDA C TL2_FLAG C SC L PA0_IN T0_N SD A PA1_IN T1_N PA2_SLO E R47 100K IN R7 TBD0603 DNI RESETN PA3_W U 2 5 42 PA4_FIFO AD R 0 XTALIN PA5_FIFO AD R 1 R ESET_N PA6_PKTEN D PA7_FLAG D _SLC S_N PB0_FD 0 IN 44 14 WAKEUP C49 0.1UF PB1_FD 1 W AKEU P PB2_FD 2 R ESER VED PB3_FD 3 C34 0.1UF PB4_FD 4 PB5_FD 5 1 2 PB6_FD 6 R D Y0_SLR D PB7_FD 7 R D Y1_SLW R PD 0_FD 8 DGND PD 1_FD 9 PD 2_FD 10 PD 3_FD 11 PD 4_FD 12 PD 5_FD 13 PD 6_FD 14 PD 7_FD 15 AG N D 3 C52 22PF 2 4 DGND 24LC64-I-SN 3 7 4 C51 22PF C31 5 1 C ASE 10PF A1 SC L XTALOUT GND DGND P3 U1 4 8 9 13 54 29 30 31 33 34 35 36 37 38 39 40 18 19 20 21 22 23 24 25 45 46 47 48 49 50 51 52 5V_USB DM DP OUT I F C L K OUT C L K O U T OUT C T L 0 _ F L A G A OUT C T L 1 _ F L A G B OUT P A 0 OUT P A 1 OUT P A 2 OUT P A 5 OUT P A 6 DNI PLACEHOLDER CSB 0 SDIO 0 OUT P B 4 OUT P B 5 R24 SCLK 0 OUT P B 6 OUT P D 2 OUT P D 3 TSW-105-08-G-D R54 OUT P B 2 OUT P B 3 OUT P B 7 OUT P D 0 OUT P D 1 DGND GND PINS 897-43-005-00-100001 R53 OUT P A 7 OUT P B 0 OUT P B 1 R8 2K CR2 A C SML-210MTT86 OUT P D 4 OUT P D 5 R55 1.00K DNI C53 TBD0402 330PF DNI R13 1.00K DNI C55 TBD0402 330PF DNI R14 1.00K DNI C56 TBD0402 330PF DNI OUT P D 6 OUT P D 7 PAD CY7C68013A-56LTXC E013815 JEDEC_TYPE=QFN56_8X8_PAD5_2X4_5 DGND Figure 10. USB Serial Control Rev. 0 | Page 11 of 16 G1 G2 G3 G4 OUT C T L 2 _ F L A G C OUT P A 3 OUT P A 4 1 2 3 4 5 6 7 8 9 10 P1 1 2 3 4 5 11493-013 D1 10PF FB GND 5 C38 0.1UF C4 C47 1UF PAD PAD PAD R2 140K 11 17 27 32 43 55 C37 1UF C44 1000PF 12 26 28 41 53 56 R1 2K ADP3334ACPZ 7 IN 1 O U T1 1 8 IN 2 O U T2 2 6 SD _N FB 3 6 10 IO C36 0.1UF DGND U3 5V_USB DECOUPLING FOR U1 11493-010 ADRF6620-EVALZ User Guide 11493-009 UG-558 Figure 12. Secondary Side Layout Figure 11. Primary Side Layout Rev. 0 | Page 12 of 16 ADRF6620-EVALZ User Guide UG-558 BILL OF MATERIALS Table 1. Qty 3 Reference Designator VCC1, VCC2, 3V3_XTAL Description Conn-PCB test point, red 8 Conn-PCB test point, yellow 6 6 2 2 2 VTUNE, 5V_SDP, CP_OUT, MUXOUT, DCL_VCO, DECL_LO, DECL_2P5, DECL_3P3 C1, C9, C43 C6, C10, C11, C16, C22 to C25, C28, C32, C40 to C42 C2 ,C5, C7, C8, C12, C13, C18, C19, C30, C31, C33 to C36, C38, C39, C45, C46, C48, C49, C61, C62, C68 to C71, C73 C14, C17, C27, C29, C54, C67 C3, C15, C26, C72, C75, C76 C20, C21 C37, C47 C4, C50 Cap cer, X5R 0603, 10 µF Cap chip mono cer, C0G 0402, 100 pF Cap cer, X7R 0402, 0.1 µF 20 5 6.3 V 50 V Manufacturer Components Corp Components Corp Murata Murata 10 16 V Murata GRM155R71C104KA88D 5 10 5 10 5 100 V 50 V 50 V 25 V 50 V 5 5 100 V 50 V 1 1 C58 C59 Cap cer, C0G 0603, 2700 pF Cap cer, NP0, 0603, 6.8 pF 5 5 50 V 50 V 2 2 2 3 C63, C64 C81 ,C83 C85, C86 D1, CR2, CR3 10 0.1 pF ±0.25 pF N/A 25 V 50 V 50 V 2.2 V 4 GND1 to GND4 Cap cer, CHIP X8R, 0603, 0.1 µF Cap cer, 0402 C0G, 1.6 pF Cap cer, C0G SMD, 0402, 2 pF LED 570 NM WTR CLR, 0805, SMD (green) Conn-PCB test point, black AVX AVX Murata Murata PHYCOMP (YAGEO) TDK PHYCOMP (YAGEO) Murata PHYCOMP (YAGEO) TDK Murata Murata Rohm 08051A101JAT2A 06035C104KAT2A GRM1555C1H151JA01D GRM188R61E105KA12D CC0402JRNP09BN100 C44 C51, C52, C57, C60 Cap cer, NP0, 0805, 100 pF Cap cer, X7R 0603, 0.1 µF Cap cer, C0G 0402, 150 pF Cap mono cer, X5R, 0603, 1 µF Cap cer, multilayer NP0 0402, 10 pF Cap cer, C0G 0603, 1000 pF Cap cer, NP0, 0603, 22 pF 1 4 10 2 2 2 2 1 RF0 to RF3, IFIN, MXOUT, REFIN, IFOUT+, IFOUT−, LOOUT+ L1, L2 L3, L4 L5, L6 LOIN+ ,LOIN− P1 1 4 P2 R1, R5, R8, R45 23 1 R11, R15, R16, R22, R24, R28, R29, R32, R33, R35, R36, R40, R41, R46, R48, R49, R52 to R54, R57 to R59, R67, L13, L14 R12 3 R18, R44, R47 1 R2 2 R23, R26 1 R3 1 R4 3 13 27 Conn-PCB coax SMA end launch Inductor SM, 0805, 1 µH Inductor SM, 0603, 470 nH Inductor SM, 7144, 39 nH Conn-PCB coax SMA ST Conn-PCB recept mini-USB Type B SMT Conn-PCB vert type rcpt SMD Res, film SMD 0603, 2 K, 1/10 W Res, film SMD 0402, 0, 1/16 W Res, thick film chip, 0402, 3 K, 1/16 W Res, prec thick film chip, 0603, 100 K, 1/10 W Res, prec thick film chip, 0603, 140 K, 1/10 W Res, prec thick film chip, 0402, 10 K, 1/16 W Res, prec thick film chip, 0603, 78.7 K, 1/10 W Res, prec thick film chip, 0402, 49.9 K, 1/16 W Tolerance Voltage Part Number TP-104-01-02 TP-104-01-04 GRM188R60J106ME47D GRM1555C1H101JD01D C1608C0G2A102J CC0603JRNP09BN220 GRM1885C1H272JA01D 2238 867 15688 C1608X8R1E104K GJM1555C1H1R6BB01B GJM1555C1H2R0CB01D SML-210MTT86 Components Corp Johnson 142-0701-851 Coilcraft Coilcraft Coilcraft Johnson Mill-Max 0805LS-102XJLB 0603LS-471XJLC 0603CS-39NXJLU 142-0701-201 897-43-005-00-100001 FX8-120S-SV(21) 9C06031A2001FKHFT 5 HRS PHYCOMP (YAGEO) Panasonic 5 Panasonic ERJ-2GEJ302X 5 5 5 1 TP-104-01-00 ERJ-2GE0R00X 1 50 V Panasonic ERJ-3EKF1003V 1 50 V Panasonic ERJ-3EKF1403V Panasonic ERJ-2RKF1002X Panasonic ERJ-3EKF7872V Panasonic ERJ-2RKF49R9X 1 1 1 Rev. 0 | Page 13 of 16 50 V UG-558 ADRF6620-EVALZ User Guide Qty 1 Reference Designator R9 Description Res, prec thick film chip, 0402, 100 K, 1/10 W SW PCB mount slide XFMR RF, 0.25 W XFMR RF, 0.25 W XFMR RF, SMT IC HS USB peripheral 2 1 2 2 1 S1, S2 T1 T2, T5 T3, T4 U1 1 1 U2 U3 1 U4 1 1 U5 Y1 IC 64 K bit EEPROM IC-ADI high acc. low IQ adj low drop reg IC Rx mixer, fractional-N PLL and VCO IC 32 K bit serial EEPROM IC crystal SMD 1 Y2 IC crystal osc, 38.4 MHz Tolerance 1 Rev. 0 | Page 14 of 16 Voltage 3 V to 3.6 V 3.3 V Manufacturer Panasonic Part Number ERJ-2RKF1001X SECMA Mini circuits Mini circuits Mini-circuits Cypress Semiconductor Microchip Analog Devices 09-03-201-02 TC4-1W+ TCM3-1T+ TC1-1-43A+ CY7C68013A-56LTXC 24LC64-I-SN ADP3334ACPZ Analog Devices ADRF6620ACPZ Microchip NDK 24LC32A-I/MS NX3225SA24.000000MHZ ADRF6620-EVALZ User Guide UG-558 NOTES Rev. 0 | Page 15 of 16 UG-558 ADRF6620-EVALZ User Guide 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. 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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. ©2013 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. UG11493-0-8/13(0) Rev. 0 | Page 16 of 16