Evaluation Kit Contents - Peregrine Semiconductor
Contents
1. No part of this publication may be reproduced photocopied stored in a retrieval system or transmitted by electronic mechanical or any other means without prior written permission of Peregrine Semiconductor Corp Peregrine Semiconductor Corp the Peregrine logotype and UTSi are registered trade marks of Peregrine Semiconductor Corp PE3293 is a trademark of Peregrine Semicon ductor Corp Peregrine Semiconductor Corp reserves the right to make improvments to the hardware firmware or software described in this manual at any time and without notice While the accompanying material has been carefully reviewed to insure the most accurate informa tion possible the data are not warranted for absolute accuracy or completeness and are subject to change without notification Peregrine Semiconductor Corp Life Support Policy Peregrine Semiconductor Corp products are not intended for use in life critical situations or as critical components in life support devices or systems Life support devices or systems are defined as devices or systems that are intended for surgical implant into the body or that support or sustain life and whose failure to perform when used in accordance with the instructions provided by the manufacturer might result in injury to the user This device is intended for use only in a research and development environment It has not been tested for compliance with FCC regulations regarding interference with radio f2. PLL1 main divider The rising edge of the Load Enable pulse can be used as a start signal for measuring lock up time The Load Enable pulse is present on pin 4 Peregrine Semiconductor Corporation 22 Doc 79 0003 03A of the DB25 connector pin 3 of J3 and pin 13 of the IC When done as a one shot event there is no wav to distinguish between jumping to the toggle frequencv and jumping back to the specified frequencv To use the standard programming mode to measure lock time as a single event with a Modulation Domain Analvzer an output for use as the trigger has been provided on pin 5 of the DB25 connector When the standard programming mode is used the software alwavs sends all four programming words The word for the PLLI main divider is the third word in the series This makes it difficult to use the Load Enable pulse as the trigger for measur ing lock time The output provided on pin 5 of the DB25 connector gives a pulse which is svnchronous with the PLLI main divider Load Enable pulse This output is labeled Step see Fig 3 Page 11 This signal is not available on the PE3293 board It must be taken from the DB25 connector Test Results Three test plots are normally enclosed Two of them are the phase noise plots with a 10 MHz square wave or a 19 2 MHz sine wave as the reference The third plot is a linear plot to show the step size spur The test data are measured with the following parameters for PLL1 Frequency Input Loop 1
3. advisory the program will permit the user to enter values outside the normal operating range of the PE3293 For example an error message fin exceeds operating limit appears in the screen of Frequency Input Loop 1 if the fin is higher than 1100 MHz This message can be ignored Basic Operation The PE3293 is a dual PLL synthesizer IC The 1 8 GHz PLL PLL 1 or RF PLL and the 550 MHz PLL PLL 2 or IF PLL are programmed separately Each PLL requires two programming words The programming words can be generated in one of three ways Three types of screen can be used to set the frequency of the PLLs These are the Frequency Input Loop screens which accepts frequency values the Loop Block Diagram screens which accept numbers to directly program the count registers and the Register Map screen which allows the binary control words to be set directly into the programming word registers If the Frequency Input Loop screens or the Loop Block Diagram screens are used to program the PLL then a third screen the Control Bits screen must be used to set the output state of the PLL and the function of the f LD pin For the PE3292 the control bits screen also sets the FlexiPower function of the prescalers If the Register Map screen is used to set the PLLs the control bits can be set directly in the Register Map screen The different screens can be accessed with the View menu from any window The control bits screen can be accessed from the o
4. fr Reference freq MHz 10 19 2 Starting frequency MHz 1750 2125 1750 09 Step size KHz 12 5 10 Step number 0 0 Max fractionality 16 16 fc comparison frequency KHz 160 160 Peregrine Semiconductor Corporation 23 Doc 79 0003 03A
5. of the specific software and hardware required to evaluate the PE3293 Included in the Evaluation Kit are 1 PE3293 Evaluation Board 1 PE3293 1 8GHz 550MHz Dual Fractional N PLL 1 CD with Application Software included 1 3 Wire Interface Cable with GND 2 Power Supply Cables 1 Set of Evaluation Kit Data Plots Equipment Needed Computer d Intel CPU or equivalent 386 or later 640 kB RAM d Microsoft Windows 95 98 Parallel port LPT1 e Mouse Microsoft or compatible Power Supply 3 VDC at 4 mA for PLL d 4 1 VDC at 9 mA for VCOI Although VCOI needs only 3 3V AIN is required to compensate the voltage drop through a 100 ohm resistor Test Equipment Spectrum analvzer HP 8561E or similar phase noise and spurious output measurement CAUTION The PE3293 EK circuit contains components that might be damaged by exposure to voltages in excess of the specified supply voltage including voltages produced by electrostatic discharges Handle the board in accordance with procedures for handling static sensitive components Avoid applying excessive voltages to the power supply terminals or signal inputs or outputs Peregrine Semiconductor Corporation 8 Doc 79 0003 03A Setting Up Hardware The primarv test setup uses a spectrum analvzer to measure center frequencv output power spurious outputs crosstalk and phase noise The configuration used to test the PE3293 EK at our facility is shown in Figures 1 and 2 for the eval
6. port LPT1 2 or 3 The user can save the PE3293 EK control settings as files for easy recall at any time Screen Shots All screen images used in this manual are from Windows 95 The appearance of the windows on your system might differ somewhat from the images in this manual depending on the version of Windows and type of display you are using Installation 1 Start Microsoft Windows Insert the Peregrine CD into CDROM drive and open CD directory Click Sales Products and then PE3293 1 8GHz 550MHz in the Phase Locked Loop list Click Evaluation Board Software in the Evalu ation Kit Documentation list Choose Save this program to disk or Run this program from its current location options Either way follow the instructions on the screen 2 Unzip the PE3293 exe file into an empty folder or directory 3 Click the setup exe file to start software installation procedure Follow the instructions on the screen Peregrine Semiconductor Corporation 13 Doc 79 0003 03A Operation Overview This section describes how to use all of the features of the PE3293 EK software to control the PE3293 EK board Since the PE3293 EK software uses a standard three wire interface it can also be used to control customer designed breadboards or modified PE3293 EK boards The PE3293 EK program performs range checking on values entered by the user or calculated by the program and warns the user if certain limits are exceeded The error messages are
7. to re enter all of the values Saving Configurations From the File menu choose Save Settings As In the Save As dialog box select a directory and enter a file name then click OK Loading Configurations From the File menu choose Load Setings In the Open dialog box select a directory and a file then click OK 6 Printer Port Screen The default output of the PE3293 EK software is through the LPT1 printer port as shown in Figure 8 If you wish to use a different port to control the PE3293 go to Options click on Parallel Port and click on the button for the port you wish to use Click on OK to set the output to the selected port The data will now be sent out through the new selected port when you click on Send Parallel Port E Printer Port Address Hex G LPTI OLPT2 OLPT3 Figure 8 Printer Port Screen Peregrine Semiconductor Corporation 21 Doc 79 0003 03A Measuring lock time The PE3293 software has two modes for use in measuring the lock time of PLLI The Toggle mode allows switching repeatedly back and forth between two chosen frequencies This is well suited to checking the coarse frequency acquisition by monitoring the tuning voltage of a synthesizer using an oscilloscope or when using a mixer and oscilloscope to measure the phase difference between a PLL already locked on frequency and the experimental PLL The standard programming mode is more useful when measuring the lock up time a
8. 32 x fel for the Loop 1 screen 2 16 x M2 x fc2 A2 x fc2 F2 32 x fc2 for the Loop 2 screen C fin Spec and fin Calc must match or an error message will be displayed Failure to meet any of these conditions will result in an error message in the dialog box under the Inputs window Input the numbers in the clear boxes by clicking on the box and typing the values in Enter the values by moving to another box clicking outside the box clicking Send or hitting the enter key For the Step Number you may type the value into the box or use the up and down buttons to increment or decrement the value by 1 The Max Fractionality is input by clicking on the box to show its pull down list and then clicking on the desired Max Fractionality on the list The user must provide fr This is the reference frequency available from your reference source The external reference is supplied to the input of both reference counters in the PE3293 The user must then specify either fc or R The program will calculate the remaining term If you change fc or R the program will recalculate the other term to fit If you specify a value for fc that cannot be generated by dividing fr by an integer between 3 and 511 there will be an error message fr is not an integer multiple of fc Peregrine Semiconductor Corporation 16 Doc 79 0003 03A The Starting freq Step Size and Step Number are provided by the user The program will calculate fin Spec
9. PLL Frequency Synthesizer Evaluation Kit PE3293 EK User s Manual 6175 Nancy RipcE DRIVE SAN DIEGO CA 92121 858 455 0660 Fax 858 455 0770 http www peregrine semi com Peregrine Semiconductor Corporation 1 Doc 79 0003 03A Table of Contents FCC Labeling Requirement ane 3 Introduction ana Ar ta se 4 Introduction tn a a kaira rteka 5 Gettin Helps Losi tasn d a nasri pit pa da od asri Na 6 IENE n ole A EA EE EEE E ua EEE 6 Customer SUPpPOTt iii A are EN E EEN ekain 6 Hardware Section kaka elek deie 7 Evaluation Kit Contents rss 8 Equipment Needed sinr enice ee gs 8 Setting Up Hardware jenen aaa 9 Connecting the Power Supply sr 11 Parallel Port to 3 Wire Serial Interface Cable 11 Software Section KAE 12 Software Introduction rra 13 Description e Ea d a era 13 Screen SHOW na Ea E aari 13 USUE 13 GIROTUTA a f a E 14 OVENEW a EE a EE Te 14 Basic Operation si 220 u ice eek ne 14 1 Programming with the Frequency Input Loop Screens 15 2 Programming with the Loop Block Diagrm Screens 17 3 Programming with the Register Map Diagrm Screens 19 4 Control Bits Window rss 20 5 Configuration Biltzarra 21 6 Printer Port Screen rrura 21 Measuring lock time rss 22 Test RESUS 2 ne d 23 Peregrine Semiconductor Corporation 2 Doc 79 0003 03A Copyright 1999 Peregrine Semiconductor Corp All rights reserved Printed in the United States of America
10. Starting freq Step Size X Step Number The program will then generate fin Calc as the closest value that can be achieved using integer values for M A and F If fin Spec cannot be achieved using integer values of M A and F there will be an error message Cannot achieve specified fin Note When programming the PE3293 to a frequency above 1 1 GHz an error message will appear stating fin exceeds operating limit This error is derived from a known software issue and should be ignored In general the step size should be chosen as fc Max fractionalitv and the Starting frequency should be an integer multiple of the Step Size Failure to do so will usually lead to numerous non Max fractionality is set by choosing 1 2 4 8 16 or 32 from the pull down list for Max Fractionality on the Frequency Input Loop screen If the calculated value for F is not zero or a multiple of 32 Max fractionality the error message Max fractionality exceeded will appear The values of M A and F cannot be entered directly in the Frequency Input Loop 1 screen If you wish to enter these values directly see the Programming With the Loop Block Diagram Screen below 2 Programming with the Loop Block Diagram Screens The count numbers for the A F M and R counters can be input into the Block Diagram screen as shown in Figure 5 as Loop 1 Block Diagram Note that the Loop 1 Block Diagram and the Loop 2 Block Diagram screens are identica
11. agram screen is useful when you have already calculated the register values or when you wish to view the register values calculated by the program in a more intuitive To program Loop 1 go to View on the main menu and select Loop 1 Block Diagram Fig 5 In this screen you can specify the count value of the A F M and R counter registers for Loop 1 The A F M and R values can be entered and displayed in decimal hexadecimal or binary format The value of fr must be specified in the Frequency Input Loop 1 screen The values of A F M and R from the Loop 1 Block Diagram will be transfered to the Frequency Input Loop 1 screen and used to calculte fin Calc If the choices of A F M or R entered in the Loop 1 Block Diagram cause an error message in the the Frequency Input Loop 1 screen the value for f 1 displayed in the Loop 1 Block Diagram will appear in red Note If RI is changed in the Loop 1 Block Diagram the comparison frequency output of the Rlcounter in the Loop 1 Block Diagram screen will change to the new calculated value Peregrine Semiconductor Corporation 18 Doc 79 0003 03A 3 Programming with the Register Map Screens The Register Map screen as shown in Figure 6 allows vou to set the state of anv accessible bit in the registers of the PE3293 Bits that vou can set are green Fixed or reserved bits are grav To access the Register Map screen go to View on the main menu and select Register Map T PEJA EK Register Ma
12. al Interface Cable Figure 3 shows the serial interface cable configuration The PE3293 demonstration software outputs a standard three wire serial bus command from pins 2 3 and 4 of the printer port of the computer The Step function carried on pin 5 of the printer port goes high with the LOAD ENABLE pulse of the PLL1 main programming word The software normally transmits all four programming words with the PLL1 main divider control word being the third word sent Clock 2 Ground 18 Cable Connector Female 0 100 centers Single row 4 positions Step 5 DB25 Male Connector Figure 3 Serial Interface Peregrine Semiconductor Corporation 11 Doc 79 0003 03A 3 Software Section Peregrine Semiconductor Corporation 12 Doc 79 0003 03A Software Introduction Description The PE3293 EK software runs under Microsoft Windows 95 98 We use PE3292 software to run PE3293 as well The window screen or label may indicate PE3292 but procedure applies to PE3293 It provides a convenient means of initializing and controlling the PE3293 EK board The user can enter frequencies directly enter division values directly as decimal hexadecimal or binary numbers and set individual control register bits directly in a register map window The program calculates register values from user specified frequencies and performs range checking on all values The program communicates with the PE3293 EK through a standard PC parallel
13. equency fc or reference divider ratio R value From these entered values the software will calculate the values for the boxes in green When fc is changed the software will recalculate the value of R and vice versa Peregrine Semiconductor Corporation 15 Doc 79 0003 03A When both Frequencv Input Loop screens have been programmed to the desired fin Calc the settings from both screens can be sent to the output port bv clicking on Send at the bottom of either Frequency Input Loop screen or by typing Alt S There are a number of conditions for correct operation of the PE3293 1 fr must be an integer multiple of fc i e R must be an integer 2 fr must be an integer multiple of Step Size 3 Step Size must be equal to fc divided by 1 2 4 8 16 or 32 4 Step Number must produce a calculated value for F which is compatible with Max fractionality e F 0 for any Max fractionality e F any value for Max fractionality of 32 e F even values for Max fractionality of 16 e F multiples of 4 for Max fractionality of 8 e F multiples of 8 for Max fractionality of 4 e F multiples of 16 for Max fractionalitv of 2 e F 0 for Max fractionality of 1 5 The desired output frequency must be achievable A The desired output frequency fin Spec will be calculated as 1 Starting freq Step Size X Step Number B The closest achievable frequency fin Calc will be calcu lated as 1 32 x MI x fel Al x fel F1
14. ernal biases have been hard wired to the PLL main power supply 3V through a voltage drop resistor 330 ohms for Vdd1 and 3 3 kohms for Vdd2 Note that only the PLL1 RF is populated not the PLL2 IF The outputs of the VCOs and the reference frequency input are via SMA jacks The power inputs and f LD output are configured for standard 100 center header pins A test point is set for the foLD output which can be connected to a SMA jack through a jumper Peregrine Semiconductor Corporation 5 Doc 79 0003 03A Getting Help This User s Manual covers all of the functions of the PE3293 EK program The pro gram uses well established Windows user interface conventions and is often self explana torv Still we recommend that vou read through this manual before using the program Internet Software upgrades frequently asked questions and applications information can be found on Peregrine s website at http www peregrine semi com Customer Support Our Applications Engineering staff will be happy to answer any questions you might have about using the PE3293 or other Peregrine Semiconductor Corp products Contact us at 858 455 0660 You may also contact us by fax or e mail Fax 858 455 0770 E Mail help peregrine semi com Peregrine Semiconductor Corporation 6 Doc 79 0003 03A p Hardware Section Peregrine Semiconductor Corporation 7 Doc 79 0003 03A Evaluation Kit Contents The Evaluation Kit includes all
15. l in appearance and function except that the prescaler block for Loop 1 shows a divide by 32 or 33 and the prescaler block shown for Loop 2 is a divide by 16 or 17 The Loop Block Diagram screens allow the user to input the values for A F M and R the numbers shown in green directly to the registers The values for fin Calc and fc shown in black can be changed only by changing A F M or R or by going to the Frequency Input screen If the resulting values of fin Calc or fc result in an error condition the number will display in red in the Loop Block Diagram screen If the resulting value of fin Calc does not agree with the fin Spec from the Frequency Input screen the number will appear in red in the When a Loop Block Diagram screen is open the Number System window is active on the main menu bar This allows input and viewing of A F M and R in decimal hex or binary by clicking on Number System to pull down the menu and choosing the desired numbering system The default setting will be in decimal Peregrine Semiconductor Corporation 17 Doc 79 0003 03A I PE3292 EK Loop 1 Block Dingrem Ble Options View Number Zugan Help A Counter 1750 2125 MH 23 MI Courker 136 Al Counter 25 23 51 Sane Cortrol Intartace Corina Logic FI Courter Fractional Spur 17 Compensation i Phase Datector Data Out adtiplazar Figure 5 PE3293 Loop I Block Diagram The Loop Block Di
16. limit the fractional spurs to 70 dBc or less The compensation requires no external components tuning or software commands No special circuit or layout features are needed on the demonstration board to fully utilize the fractional spur compensation The fractional spur compensation may cause stability problems if loop bandwidths of more than 10 of the step size are used The loop filter is a standard second order passive filter keeping in mind that N is calculated using the output frequency divided by the comparison frequency not the output frequency divided by the step size Example for f 950 MHz La 800 KHz and f p 25 KHz we have N 950 0 8 1187 5 Pads are provided on the board for installing additional components to make a 3 order loop filter if desired Special layout features are employed in the PE3293 demonstration board to maximize the isolation between sections allowed by the fully insulating substrate of the PE3293 The power supplies for the two VCOs are isolated and brought out to separate pins on the board This provides additional isolation and allows use of VCOs with power supply other than 3V The PE3293 board brings VDDI the external bias for the PLLI prescaler and VDD2 the external bias for the PLL2 prescaler out to separate jacks This allows the user to set the speeds and power usages of PLL1 and PLL2 independently To minimize the number of power supply needed for the evaluation board the PLL1 and PLL2 ext
17. output function for the f LD pin The Loop Output Options are toggled by clicking on the function buttons The On button toggles the entire PLL on or off The Invert button sets the charge pump of that loop to invert the current sink and source relationship The Hi Z button turns the charge pump for that loop off creating a high impedance at the charge pump output If using the PE3293 click on one of the Prescaler FlexiPower Setting buttons to control the prescaler function After the f LD Control both Loop Output Options and the Prescaler FlexiPower Setting if using the PE3293 are set to the desired states click on Ok to transfer the new states to the control word registers and close the window Control Bits E foLD Control Prescaler FlexiPower Setting OLDI O fpl PLLI PLL2 External OLD2 C fp2 PLLI PLL2 Low Power O LD1 LD2 O Data fel Disabled PLL1 High Speed PLL2 Low Power Er PLLI PLL2 High Speed Loop 1 Output Options Loop 2 Output Options x On On f Invert f Invert Hi Z Hi Z Figure 7 Control Bits Window Note that none of the Loop 2 Output Options was selected because the Loop 2 was not populated Peregrine Semiconductor Corporation 20 Doc 79 0003 03A 5 Configuration Files All of the register values and control states can be saved as files Later you can reload a saved configuration to restore the PE3293 EK to a particular state without having
18. p BEI E Bile Options View ORO Or Help Loop tic Loop 2 te 400 0 kHz 5000 kHz Sand Loop 1 tie Loop 2 tin 1750 2125 MHz 450 0 MH Figure 6 PE3293 Register Map Screen To program in the Register Map screen place the cursor on the bit that you want to change and press the 0 or 1 keys to change the value In this view the program recognizes changes immedi ately It is not necessary to move the cursor to enter the new value The control bits for the PE3293 can be entered directly in the Register Map view to turn the individual PLLs on or off control the f LD output and set the charge pump Output Options Once the desired bits are entered click on Send to program the PE3293 You can use this feature with the Send Continuous mode to change individual bits while automatically updating the PE3293 Peregrine Semiconductor Corporation 19 Doc 79 0003 03A 4 Control Bits Window Except in the Register Map mode when the PLL frequency is set using either the Frequency Input Loop screens or the Loop Block Diagram screens the settings for the Loop Output Options the Prescaler FlexiPower Setting and foLD Control must be set using the Control Bits window as shown in Figure 7 To access the Control Bits window go to Options in the main menu and click on Control Bits to display the Control Bits window Click on any f LD Control button to choose that
19. ptions menu Peregrine Semiconductor Corporation 14 Doc 79 0003 03A 1 Programming with the Frequencv Input Loop Screens The reference frequency output frequency step size step number and comparison frequency can be specified on the Frequency Input Loop screens Figure 4 shows one screen of the Frequency Input Loop 1 This screen can be activated by clicking the View on the main menu and select Frequency Input Loop 1 T PE3292 EK Frequency Input Loop 1 Ble Options View r laputs Calculated Values bikiek SC TAW fie Spec Ho EEE Starting Iraq MHz KI tin cuc pa Pr Step Sire kHz Step Number 25 Max tractionnality ic kHz 400 0 Im exceeds operating limit Figure 4 Frequency Input Loop I Screen Note When programming the PE3293 to a frequency higher than 1 1 GHz an error message will appear stating fin exceeds operating limit This error is derived from a known software issue and should be ignored Note that the Frequency Input Loop 1 and the Frequency Input Loop 2 screens are identical in appearance and function except that the prescaler for Loop 1 is a divide by 32 or 33 and the prescaler for Loop 2 is a divide by 16 or 17 The Frequency Input screens are the basic method for programming the PLLs These screens allow you to enter the reference frequency fr starting frequency step size step number maximum fractionality and comparison fr
20. requency energy It might cause harmful interference with radio communications The user assumes responsibliity for any interference caused by this device FCC Labeling Requirement This device complies with Part 15 of the FCC Rules Operation is subject to the following two conditions 1 this device may cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation Peregrine Semiconductor Corporation 3 Doc 79 0003 03A 3 Introduction Peregrine Semiconductor Corporation Doc 79 0003 03A Introduction The PE3293 EK is a self contained dual PLL synthesizer on a 3 25 x 3 25 surface mount circuit board Externally it requires only power supplies a reference frequency source and a three wire serial data programmer to make an operating dual frequency synthesizer The board is intended to illustrate the features of Peregrine s fractional N architecture and the benefits of the UTSi process The fractional N PLL provides improved phase noise and low spurious output levels The UTSi process with its insulating substrate provides improved isolation to limit crosstalk between the two PLL sections on the chip The PE3293 minimizes current consumption by allowing the user to choose the preferred trade off between speed and power The PE3293 has internal fractional spurious compensation This compensation along with a standard second order loop filter should
21. s a one shot event using a Modu lation Domain Analyzer or similar instrument To use Toggle Mode click on Options to pull down the menu and then click on Toggle Mode Click on Options again You will now see that the Repetition Rate and Toggle Setting options are available Click on Repetition Rate The Repetition Rate window will ask you to set a number for the delay time The actual time period represented by this number will be machine dependent You will have to experiment to determine the delay number needed to give the desired time between stepping events for your computer Click on Toggle Setting The Toggle Setting window will ask you to chose the number of step sizes you wish to jump at each toggle event The output frequency will toggle between the specified frequency fin Spec in the Frequency Input Loop 1 screen and a frequency that is the set number of steps above or below the starting frequency A step is defined by the Step Size entry of the Inputs box of the Frequency Input Loop 1 view As an example if we set the Staring Frequency to 1730 4 MHz the Step Size to 12 5 KHz and the Step Number to 1 we will get an fin Spec of 1730 4125 MHz A Toggle Setting of 5 steps will then cause the frequency to toggle between 1730 4125 MHz and 1730 475 MHz A Toggle Setting of 5 steps will cause the frequency to toggle between 1730 4125 MHz and 1730 35 MHz When the Toggle Mode is used the software sends only the programming word for the
22. uation kit with the PE3293 in TSSOP and BCC package respectively Vvcol 4 1V PLL VDD Input 3V Input 2 Peregrine PE329X EK REV 3 0 z a eee E Sed e Pes ee Serial Input Figure 1 PE3293 Evaluation Board Configuration for PE3293 in TSSOP Package Peregrine Semiconductor Corporation 9 Doc 79 0003 03A Vvcol 4 1V PLL VDD Input 43V Input Serial Input Figure 2 PE3293 Evaluation Board Configuration for PE3293 in BCC Package Peregrine Semiconductor Corporation 10 Doc 79 0003 03A Connecting the Power Supplv Connect the PE3293 EK to suitable power supplies as shown in Fig or 2 The VDD to the PE3293 is 3 volts Although VCOI needs only 3 3V 4 1V is needed at V co terminal to compen sate the voltage drop through a 100 ohm resistor Because the PLL2 IF is not populated no power supply is required for the V co terminal Connection can be made using dedicated wires soldered into the supply holes or polarized pin plugs supplied with the evaluation kit PE3293 has to use the FlexiPower feature for VDD1 and VDD2 Vdd1 gets the required voltage through a voltage drop resistor 330 ohms for Vdd1 connected to the PLL main power 3V When using a 5 volt VCO note that the maximum tuning voltage from the PE3293 will be 2 5 volts and the tuning range of the VCO will be restricted on the high frequency end of the specified frequency range of the VCO Parallel Port to 3 Wire Seri
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