Boonton 4500B Peak Power Meter Bedienungsanleitung

Wireless Telecom Group 25 EASTMANS ROAD, PARSIPPANY, NJ 07054 Telephone: 973-386-9696 Fax: 973-386-9191 Email: [email protected] Web: www

Boonton 4500B RF Peak Power Analyzer Contents x DISPlay:PARAmeter:MIDdle:MIDdle... 5-24 DIS

Boonton 4500B RF Peak Power Analyzer Operation 4-28 Table 4-6. Chan Math > Expression > Submenu (continued) Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-29 Stored Traces Select Chan Mem # > Selection > Mem 1 or Chan Mem # > Selection > Me

Boonton 4500B RF Peak Power Analyzer Operation 4-30 Table 4-7. Chan Mem # > Menu Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-31 Table 4-7. Chan Mem # > Menu (continued) Menu Item Function (Type) Sel

Boonton 4500B RF Peak Power Analyzer Operation 4-32 External Trigger Channels The external trigger channels, one for each installed measurement chann

Boonton 4500B RF Peak Power Analyzer Operation 4-33 Table 4-7B. Ext Trig # > Menu (continued) Menu Item Function (Type) Se

Boonton 4500B RF Peak Power Analyzer Operation 4-34 Table 4-7C. Ext Trig # > Calibration > Submenu Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-35 Table 4-7D. Ext Trig # > Extensions > Submenu Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-36 Table 4-7D. Ext Trig # > Extensions > Submenu (continued) Menu Item Functio

Boonton 4500B RF Peak Power Analyzer Operation 4-37 4.10 TIME (STAT) Key and Time > Menu In the Pulse & Mod modes the TIME key activates the T

Boonton 4500B RF Peak Power Analyzer Contents xi FETCh:MARKer:DELTa? ...

Boonton 4500B RF Peak Power Analyzer Operation 4-38 Table 4-8A. Time > Menu (continued) Menu Item Function (Type) Select

Boonton 4500B RF Peak Power Analyzer Operation 4-39 Table 4-8B. Statistics > Menu Menu Item Function (Type) Selections (

Boonton 4500B RF Peak Power Analyzer Operation 4-40 Table 4-8B. Statistics > Menu (continued) Menu Item Function (Type) Selec

Boonton 4500B RF Peak Power Analyzer Operation 4-41 Table 4-8B. Statistics > Menu (continued) Menu Item Function (Type) Selec

Boonton 4500B RF Peak Power Analyzer Operation 4-42 Table 4-8C. Statistics > Term Settings > Submenu Menu Item (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-43 4.11 TRIG Key and Trig > Menu The TRIG key activates the Trig > menu (Figure 4-27), which

Boonton 4500B RF Peak Power Analyzer Operation 4-44 Table 4-9. Trig > Menu (continued) Menu Item Function (Type) Selectio

Boonton 4500B RF Peak Power Analyzer Operation 4-45 Table 4-9. Trig > Menu (continued) Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-46 Table 4-9. Trig > Menu (continued) Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-47 Table 4-9. Trig > Menu (continued) Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Contents xii OUTPut:LEVel:STEP ...

Boonton 4500B RF Peak Power Analyzer Operation 4-48 Table 4-9A. Trig > B Trig > Submenu (continued) Menu Item Function (Typ

Boonton 4500B RF Peak Power Analyzer Operation 4-49 Table 4-9B. Trig > Menu (modulated) Menu Item (Type) Selections Function Tr

Boonton 4500B RF Peak Power Analyzer Operation 4-50 Table 4-9C. Trig > Menu (statistical) Menu Item (Type) Selections Function

Boonton 4500B RF Peak Power Analyzer Operation 4-51 Table 4-9C. Trig > Menu (statistical) (continued) Menu Item (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-52 Procedure To make time interval measurements, position Time Marks 1 and 2 at the beginning and e

Boonton 4500B RF Peak Power Analyzer Operation 4-53 Table 4-11. Mark > Menu (continued) Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-54 Table 4-12. Mark > Extensions > Submenu Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-55 Table 4-12. Mark > Extensions > Submenu (continued) Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-56 Table 4-12. Mark > Extensions > Submenu (continued) Menu Item (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-57 Table 4-12. Mark > Extensions > Submenu (continued) Menu Item Fu

Boonton 4500B RF Peak Power Analyzer Contents xiii SENSe:CORRection:TEMPcomp... 5-6

Boonton 4500B RF Peak Power Analyzer Operation 4-58 Fig. 29c. Characteristics of the Peak-to-Average Ratio meas

Boonton 4500B RF Peak Power Analyzer Operation 4-59 4.13 REF Key and Ref > Menu The REF function key activates the Ref > menu, which controls t

Boonton 4500B RF Peak Power Analyzer Operation 4-60 Table 4-13. Ref > Menu (continued) Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-61 4.14 MEAS Key and Meas > Menu The MEAS function key activates the Meas > menu (Figure 4-32)

Boonton 4500B RF Peak Power Analyzer Operation 4-62 Table 4-15. Meas > Menu (pulse and modulated) (continued) Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-63 Table 4-15A. Meas > Auto Meas Menu (pulse) (continued) Menu Item Function (Ty

Boonton 4500B RF Peak Power Analyzer Operation 4-64 Table 4-15B. Meas > Auto Meas > Skew > Submenu (pulse) Menu Item Functio

Boonton 4500B RF Peak Power Analyzer Operation 4-65 Table 4-16. Meas > Param Meas > Submenu (pulse) Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-66 Table 4-16A. DISPLAY PARAMETER TABLE NUMBER PARAMETER DESCRIPTION 1 Pulse Width

Boonton 4500B RF Peak Power Analyzer Operation 4-67 Table 4-17. Meas > Menu (Statistical) Menu Item Function (Type) Selection

Boonton 4500B RF Peak Power Analyzer Contents xiv SYSTem:PRESet ...

Boonton 4500B RF Peak Power Analyzer Operation 4-68 4.15 UTIL Key and Util > Menu The UTIL key activates the Util > menu (See Table 4-20 and Fi

Boonton 4500B RF Peak Power Analyzer Operation 4-69 Table 4-19. Util > Remote Conf > Submenu Menu Item (Type) Selections Func

Boonton 4500B RF Peak Power Analyzer Operation 4-70 Table 4-20. Util > Remote Conf > GPIB > Submenu Menu Item Function (T

Boonton 4500B RF Peak Power Analyzer Operation 4-71 Table 4-20. Util > Remote Conf > GPIB > Submenu (continued) Menu Item (Type) S

Boonton 4500B RF Peak Power Analyzer Operation 4-72 Table 4-21. Util > Remote Conf > GPIB > Setup > Submenu Menu Item Funct

Boonton 4500B RF Peak Power Analyzer Operation 4-73 Table 4-21. Util > Remote Conf > GPIB > Setup > Submenu (continued) Menu Item

Boonton 4500B RF Peak Power Analyzer Operation 4-74 Table 4-21A. Util > Remote > LAN Config > Submenu (Opt 11 only) Menu Item

Boonton 4500B RF Peak Power Analyzer Operation 4-75 Table 4-22. Util > Remote Conf > Emulation > Submenu Menu Item Function (

Boonton 4500B RF Peak Power Analyzer Operation 4-76 Table 4-23. Util > Disk (1 of 2) > Submenu Menu Item (Type) Selections Fu

Boonton 4500B RF Peak Power Analyzer Operation 4-77 Table 4-24. Util > Disk (1 of 2) > Rename > Submenu Menu Item (Type) Selection

Boonton 4500B RF Peak Power Analyzer Contents xv Automatic Measurement Criteria ...

Boonton 4500B RF Peak Power Analyzer Operation 4-78 Table 4-26. Util > Disk (2 of 2) > Submenu Menu Item (Type) Selections Fu

Boonton 4500B RF Peak Power Analyzer Operation 4-79 Table 4-27. Util > Disk (2 of 2) > Folder > Submenu Menu Item (Type) Selectio

Boonton 4500B RF Peak Power Analyzer Operation 4-80 Table 4-28. Util > Disk (2 of 2) > Folder > Create > Submenu Menu Item (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-81 Table 4-29. Util > Hardcopy > Submenu Menu Item Function (Type) Sel

Boonton 4500B RF Peak Power Analyzer Operation 4-82 Table 4-30. Util > Clock > Menu Menu Item Function (Type) Selection

Boonton 4500B RF Peak Power Analyzer Operation 4-83 4.16 CAL Key and Calibrator > Menu With the Calibrator > menu (Figure 4-45), you can turn o

Boonton 4500B RF Peak Power Analyzer Operation 4-84 Table 4-31. Calibrator > Menu (continued) Menu Item Function (Type) Selectio

Boonton 4500B RF Peak Power Analyzer Operation 4-85 Table 4-32. Calibrator > Pulse (Preset) > Submenu (continued) Menu Item Fun

Boonton 4500B RF Peak Power Analyzer Operation 4-86 Table 4-33. Calibrator > Pulse (Variable) > Submenu Menu Item Function (Ty

Boonton 4500B RF Peak Power Analyzer Operation 4-87 Figure 4-48. Table 4-34. Calibrator > Extensions > Submenu Menu

Boonton 4500B RF Peak Power Analyzer Contents xvi Table 7-12. 59318 Sensor Frequency Calfactor Accuracy ... 7-22 Table 7-13. 563

Boonton 4500B RF Peak Power Analyzer Operation 4-88 4.17 PRGM Key and Prgm > Menu The PRGM key activates the Prgm > menu (Figure 4-49), which

Boonton 4500B RF Peak Power Analyzer Operation 4-89 Table 4-35. Prgm > Menu Menu Item Function (Type) Selections (SCPI C

Boonton 4500B RF Peak Power Analyzer Operation 4-90 Table 4-36. Prgm > Inst Store > Menu Menu Item (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-91 Table 4-37. Prgm > Inst Store > Basename > Menu Menu Type (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-92 To recall a previously stored configuration, press the Prgm > Instr Recall menu key. A file sy

Boonton 4500B RF Peak Power Analyzer Operation 4-93 Table 4-40. Prgm > Mem Save > Menu Menu Item Function (Type) Selec

Boonton 4500B RF Peak Power Analyzer Operation 4-94 Table 4-41. Prgm > WFM Store > Menu Menu Item (Type) Selections Function Fol

Boonton 4500B RF Peak Power Analyzer Operation 4-95 Table 4-41. Prgm > WFM Store > Menu (continued) Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-96 Table 4-42. Prgm > WFM Recall > Menu Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-97 Table 4-43. Prgm > Trace Data > Menu Menu Item Function (Type) Selectio

Boonton 4500B RF Peak Power Analyzer General Information 1-1 1. General Information This instruction manual provides you with the information you ne

Boonton 4500B RF Peak Power Analyzer Operation 4-98 Table 4-43. Prgm > Trace Data > Menu (continued) Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-99 4.18 DISP Key and Disp > Menu The Display menu controls the way traces are drawn and how they

Boonton 4500B RF Peak Power Analyzer Operation 4-100 Filter setting. This results in a "peak hold" characteristic where the min and max pea

Boonton 4500B RF Peak Power Analyzer Operation 4-101 Table 4-44. Display > Menu continued) Menu Item Function (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-102 Table 4-45. Display > Screen Saver > Submenu Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-103 Table 4-46. Display > Format > Submenu Menu Item Function (Type) Selecti

Boonton 4500B RF Peak Power Analyzer Operation 4-104 Table 4-47. Display > Format > Trace Type (1 of 2 ) > Submenu Menu Item (Type) Se

Boonton 4500B RF Peak Power Analyzer Operation 4-105 Table 4-48. Display > Format > Trace Type (2 of 2 ) > Submenu Menu Item F

Boonton 4500B RF Peak Power Analyzer Operation 4-106 Table 4-49. Display > Format > Set Color > Submenu Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-107 Table 4-49. Display > Format > Set Color > Submenu (continued) Menu Item F

Boonton 4500B RF Peak Power Analyzer General Information 1-2 1.2 Description The Model 4500B RF Peak Power Analyzer is the latest generation of BOONT

Boonton 4500B RF Peak Power Analyzer Operation 4-108 4.19. SPCL Key and Spcl > Menu The SPCL key activates the Spcl > menu (Figure 4-65), which

Boonton 4500B RF Peak Power Analyzer Operation 4-109 Table 4-51. Spcl >Trigger Out>Menu Menu Item (Type) Selections Function

Boonton 4500B RF Peak Power Analyzer Operation 4-110 Table 4-52. Spcl > Servicing > Submenu Menu Item (Type) Selections Function

Boonton 4500B RF Peak Power Analyzer Operation 4-111 Table 4-52. Spcl > Servicing > Submenu (continued) Menu Item (Type) Selections

Boonton 4500B RF Peak Power Analyzer Operation 4-112 Table 4-53. Spcl > Servicing > Time Skew Adj > Submenu Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-113 Table 4-54. Spcl > Sensor Data > Submenu Menu Item (Type) Selections Function

Boonton 4500B RF Peak Power Analyzer Operation 4-114 Table 4-55. Spcl > Sensor Data > CH 1,(2) Detail > Submenu Menu Type (Type) Select

Boonton 4500B RF Peak Power Analyzer Operation 4-115 4.20 Automatic Operation The Model 4500B can make up to 15 automatic measurements. The available

Boonton 4500B RF Peak Power Analyzer Operation 4-116 NOTE The Channel 1 and Channel 2 voltage readings are derived by converting power to equivalent

Boonton 4500B RF Peak Power Analyzer Operation 4-117 AUTOMATIC MEASUREMENTS – MODULATED MODE The Modulated mode is most often used to measure the tr

Boonton 4500B RF Peak Power Analyzer General Information 1-3 1.3 Features . Software. splay, I/O a

Boonton 4500B RF Peak Power Analyzer Operation 4-118 AUTOMATIC MEASUREMENTS – STATISTICAL MODE (Opt 10 only) In the Statistical mode automatic measu

Boonton 4500B RF Peak Power Analyzer Operation 4-119 4.21 Model 4500B MENU MAP Table 4-63. Control Menu Structure

Boonton 4500B RF Peak Power Analyzer Operation 4-120 Table 4-63. Control Chan 1/Chan 2 (pulse) Mem 1/Mem 2 (

Boonton 4500B RF Peak Power Analyzer Operation 4-121 Menu Structure (continued) Ext Trig1/Ext Tri

Boonton 4500B RF Peak Power Analyzer Operation 4-122 Table 4-63. Control Menu Structure (continued)

Boonton 4500B RF Peak Power Analyzer Operation 4-123 Table 4-63. Control Menu Structure (continued) Mark

Boonton 4500B RF Peak Power Analyzer Operation 4-124 Table 4-63. Control Menu Structure (continued)

Boonton 4500B RF Peak Power Analyzer Operation 4-125 Table 4-63. Control Menu Structure (continued) Calibrator (pres

Boonton 4500B RF Peak Power Analyzer Operation 4-126 Table 4-63. Control Menu Structure (continued)

Boonton 4500B RF Peak Power Analyzer Operation 4-127 Table 4-63. Control Menu Structure (continued) Disp

Boonton 4500B RF Peak Power Analyzer Contents ii INSTRUCTION MANUAL, MODEL 4500B RF PEAK POWER ANALYZER Revision date 7/13/2011 © C

Boonton 4500B RF Peak Power Analyzer General Information 1-4 Color Display Waveforms, control menus, measurement values and related text are display

Boonton 4500B RF Peak Power Analyzer Operation 4-128 (This Page Intentionally Blank)

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-1 5. Remote Operation 5.1 GPIB CONFIGURATION The 4500B GPIB interface is configured using

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-2 5.3 SCPI LANGUAGE All of the features of the Model 4500B are accessible with the SCPI comm

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-3 SENSe3:RANGe? Query the range of external trigger channel TRIG1 SENS3:RANG? Query

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-4 5.4 BASIC MEASUREMENT OPERATION. The easiest way to obtain a reading is by use of the MEA

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-5 The Operation Status Register is read by the STATus:OPERation:CONDition? command. The transi

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-6 5.5.1 IEEE 488.2 Commands The purpose of IEEE488.2 commands is to provide management and da

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-7 *ESR? Description: Return the current value of the Standard Event Status Register, then

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-8 *OPC Description: Clears the OPC (Operation Complete) status flag. This command is issue

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-9 *SRE Description: Set or return the mask value in the Service Request Enable Register.

Boonton 4500B RF Peak Power Analyzer General Information 1-5 1.4 Accessories Optional 4500B accessories that can be ordered from Boonton Electronics.

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-10 *TRG Description: Simulate the bus trigger command.. This command has the same effect a

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-11 5.5.2 CALCulate Subsystem The CALCulate group of the command subsystem is used to configur

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-12 CALCulate:MATH:ARGA Description: Set or return the signal source of the A argument for

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-13 CALCulate:PKHLD Description: 

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-14 CALCulate:UNIT Description: Set or return units for the selected channel. For

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-15 5.5.3 CALibration Subsystem The CALibration group of commands is used to control automatic

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-16 CALibration:USER:FREQcal Description: Performs a single-point sensor gain calibrati

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-17 5.5.4 DISPlay Subsystem The DISPlay group of commands is used to control the sel

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-18 DISPlay:BRIGhtness:BLUE Description: Set or return the intensity of the blue co

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-19 DISPlay:DECAdes Description: Set or return the number of decades displayed on

Boonton 4500B RF Peak Power Analyzer General Information 1-6 1.5 Optional Configurations Basic. One measurement channel; the channel and trigger con

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-20 DISPlay:HEADer Description: Set or return the type of header shown at the top left of

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-21 DISPlay:PARAmeter:MODE Description: Set or return the type of content displayed in th

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-22 DISPlay:CHANnel: MIDdle: LEFT Description: Set or return the channel for the auto-mea

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-23 DISPlay:CHANnel:TOP: MIDdle Description: Set or return the channel for the auto-

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-24 DISPlay:PARAmeter:BOTtom:RIGHt Description: Set or return the auto-measure or fixed par

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-25 DISPlay:PARAmeter:MIDdle:RIGHt Description: Set or return the auto-measure or fixed par

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-26 DISPlay:PARAmeter:TOP:RIGHt Description: Set or return the auto-measure or fixed parame

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-27 DISPlay:PCTOFST Description: Set or return the horizontal trace percent offset of the s

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-28 DISPlay:PLABel:TEXTA Description: Set or return line 1 of the plot label text up to 19

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-29 DISPlay:PULSe:TIMEBASE Description: Set or return the pulse mode timebase in seconds/di

Boonton 4500B RF Peak Power Analyzer General Information 1-7 Table 1-2 Model 4500B Performance Specifications (Specifications are subject to chan

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-30 DISPlay:SKEW:REFerence Description: Set or return the reference channel for time skew

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-31 DISPlay:TRACe:PDFBars Description: Set or return the number of bars in the PDF display

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-32 DISPlay:TSPAN Description: Set or return the horizontal time span of the display. Time

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-33 5.5.5 FETCh Queries The FETCh? group of queries is used to return specific measurement dat

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-34 FETCh:ARRay:AMEAsure:TIMe? Description: Returns an array of the current automatic timin

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-35 FETCh:ARRay:MARKer:POWer? Description: Returns an array of the current marker measureme

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-36 FETCh:ARRay:TEMPerature:CALTemp? Description: Return the internal temperature of the Ch

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-37 FETCh:INTERval:MAXimum? Description: For the specified channel, return the maximum inst

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-38 FETCh:INTERval:PKAVG? Description: For the specified channel, return the peak-to-avera

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-39 FETCh:MARKer:MAXimum? Description: For the specified channel and marker, return the ma

Boonton 4500B RF Peak Power Analyzer General Information 1-8 Table 1-2 Model 4500B Performance Specifications (continued) (Specifications are subj

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-40 FETCh:MARKer:RRATio? Description: For the specified channel return the ratio of MK2 to

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-41 5.5.6 HCOPy Commands The HCOPy commands are used to control the printing of screen images

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-42 5.5.7 INITiate and ABORt Commands The purpose of the INITiate group of commands is to sta

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-43 INITiate[:IMMediate[:ALL]] Description: Starts a single measurement cycle when INIT

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-44 5.5.8 MARKer Subsystem The MARKer group of commands is used to configure and locate measur

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-45 MARKer:MATH:BOTH Description: Set the marker group to BOTH and configure the marker math

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-46 MARKer:MATH:EACH Description: Set the marker group to EACH and configure the marker math

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-47 MARKer:POSItion:PIXel Description: Set or return the horizontal pixel position (X-axis

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-48 5.5.9 MEASure Queries The MEASure group of commands is used to acquire data using a set of

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-49 5.5.10 MEMory Subsystem The MEMory group of commands is used to save and recall instrument

Boonton 4500B RF Peak Power Analyzer General Information 1-9 Table 1-2 Model 4500B Performance Specifications (continued) (Specifications are subj

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-50 MEMory:FREE? Description: Return the number of free bytes on the active drive.

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-51 MEMory:SNSR:INFO? Description: Return the sensor ID and parameter data. Syntax: MEM

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-52 MEMory:SYS:STORe Description:       

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-53 MMEMory:SAVE:DISPlay Description: 

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-54 5.5.11 OUTPut Subsystem The OUTPut group of commands is used to control the internal 1GHz

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-55 OUTPut:MODUlation Description: Set or return the output modulation state for the 1 GHz

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-56 OUTPut:PULse:PERiod Description: Set or return the pulse period in the Preset pulse con

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-57 OUTPut:TRIGout[1/2]:SOURce Description: Set or return the signal type for the measureme

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-58 5.5.12 READ Queries The purpose of the READ? group of queries is to initiate a measurement

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-59 READ:ARRay:AMEAsure:TIMe? Description: Returns an array of the current automatic timing

Boonton 4500B RF Peak Power Analyzer General Information 1-10 Table 1-2 Model 4500B Performance Specifications (continued) (Specifications are sub

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-60 READ:ARRay:MARKer:POWer? Description: Returns an array of the current marker measureme

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-61 READ:INTERval:MAXimum? Description: For the specified channel, return the maximum inst

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-62 READ:INTERval:PKAVG? Description: For the specified channel, return the peak-to-averag

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-63 READ:MARKer:MINimum? Description: For the specified channel and marker, return the min

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-64 5.5.13 REFLine Subsystem The REFLine group of commands is used to configure and locate ho

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-65 REFLine:TRACk Description: Controls the automatic tracking of waveform parameters using

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-66 5.5.14 SENSe Subsystem The purpose of the SENSe command subsystem is to directly configur

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-67 5.5.14.1 SENSe:CALTAB Data Array Commands The purpose of the SENS:CALTAB gro

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-68 SENSe:CORRection:FDOFfset Description: Set or return the name of the current freq

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-69 SENSe:CORRection:OFFSet Description: Set or return a measurement offset in dB for the s

Boonton 4500B RF Peak Power Analyzer General Information 1-11 Table 1-2 Model 4500B Performance Specifications (continued) (Specifications are sub

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-70 SENSe:FILTer:TIMe Description: Set or return the current length of the integration filt

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-71 5.5.14.2 SENSe:HISTogram Data Array Commands The purpose of the SENS:HISTogram group of c

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-72 SENSe:IMPedance Description: Set or return trigger channel impedance for the se

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-73 SENSe:PULSe:MESIal Description: Set or return the pulse amplitude percentage, which is

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-74 SENSe:PULSe:UNIT Description: Set or return the units for entering the pulse distal, m

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-75 5.5.15 STATus Commands The STATus command subsystem enables you to control the SC

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-76 STATus:OPERation:EVENt? Description: This query returns the contents of the Operation E

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-77 STATus:QUEStionable:CONDition? Description: Return the current value (condition) of the

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-78 STATus:QUEStionable:NTRansition Description: Sets the negative transition filter. Setting

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-79 (This Page Intentionally Blank)

Boonton 4500B RF Peak Power Analyzer General Information 1-12 Table 1-2 Model 4500B Performance Specifications (continued) (Specifications are sub

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-80 5.5.16 SYSTem Subsystem The SYSTem group of commands is used to control system-level funct

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-81 SYSTem:COMMunicate:GPIB:LISTen Description: Set or return the 4500B as LISTENER line te

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-82 SYSTem:COMMunicate:SERial:BITS Description: Set or return the number of serial bits per

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-83 SYSTem:DATE:DAY Description: Set or return the day of the month of the real time clock.

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-84 SYSTem:ERRor[:NEXT]? Description: Returns the next queued error code number followed by

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-85 SYSTem:PRESet Description: Set 4500B default parameters. Equivalent to pressing the fro

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-86 5.5.17 TRACe Data Array Commands The TRACe group of commands is used to control the output

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-87 TRACe:DELImiter Description: Set or return the ASCII data delimiter used to separate

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-88 TRACe:INDEX Description: Set or return the array index for the first trace point to be

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-89 TRACe:SEND Description: Send the trace data for the source selected by TRACe:S

Boonton 4500B RF Peak Power Analyzer Installation 2-1 2. Installation This section contains unpacking and repacking instructions, power requirements

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-90 5.5.18 TRIGger Subsystem The TRIGger group of commands is used to control synchronization

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-91 TRIGger:BTRIGger:SLOPe Description: Set or return the B trigger slope or polarity. Whe

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-92 TRIGger:CDF:COUNt Description: Set or return the terminal count (sample population si

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-93 TRIGger:DELay Description: Set or return the trigger delay time in seconds with respect

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-94 TRIGger:LEVel Description: Set or return the trigger level for synchronizing data acq

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-95 TRIGger:POSition Description: Set or return the position of the trigger event on displa

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-96 TRIGger:STATistical:GATE Description: Set or return the marker locations in time relati

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-97 (This Page Intentionally Blank)

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-98 Table 5-1. SCPI COMMAND SUMMARY *OPT Return the instrument options *CLS Clear Stat

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-99 Table 5-1. SCPI COMMAND SUMMARY (continued) CALCulate[1|2|5|6|7]:UNIT Chan

Boonton 4500B RF Peak Power Analyzer Contents iii SAFETY SUMMARY The following general safety precautions must be observed during all phases of oper

Boonton 4500B RF Peak Power Analyzer Installation 2-2 Table 2-1 Model 4500B Packing List INSTRUMENT (See also Table 1-1) Model 4500B RF Peak Power A

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-100 Table 5-1. SCPI COMMAND SUMMARY (continued) DISPlay:PARAmeter:MIDdle:LEFT Ass

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-101 Table 5-1. SCPI COMMAND SUMMARY (continued) DISPlay:TRACe:MKCENTer Ch

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-102 Table 5-1. SCPI COMMAND SUMMARY (continued) FETCh[1|2|6|7]:INTERval:PKAVG? Retu

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-103 Table 5-1. SCPI COMMAND SUMMARY (continued) MEASure[1|2]:POWer? Return modulated mod

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-104 Table 5-1. SCPI COMMAND SUMMARY (continued) OUTPut:PULSe:CTRL Set/return

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-105 Table 5-1. SCPI COMMAND SUMMARY (continued) READ[1|2|3|4|5|6|7]:MARKer:RATio? R

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-106 Table 5-1. SCPI COMMAND SUMMARY (continued) SENSe[3|4]:IMPedance

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-107 Table 5-1. SCPI COMMAND SUMMARY (continued) SYSTem:COMMunicate:GPIB:LISTen Set

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-108 Table 5-1. SCPI COMMAND SUMMARY (continued) TRIGger:BTRIGger:MODE Select B trigg

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-109 Table 5-2. 4400/4500/4400A/4500A EMULATION COMMANDS Supported Commands

Boonton 4500B RF Peak Power Analyzer Installation 2-3 Note If the sensor connector is not a type N, install the appropriate adapter (from the

Boonton 4500B RF Peak Power Analyzer Remote Operation 5-110 Table 5-2. 4400/4500/4400A/4500A EMULATION COMMANDS (continued) Ignored Co

Boonton 4500B RF Peak Power Analyzer Application Notes 6-1 6. Application Notes This section provides supplementary material to enhance your knowled

Boonton 4500B RF Peak Power Analyzer Application Notes 6-2 Figure 6-1. Pulsed RF Signal Figure 6-2. Distorted Pulse Signal

Boonton 4500B RF Peak Power Analyzer Application Notes 6-3 Diode Detection Wideband diode detectors are the dominant power sensing device used to me

Boonton 4500B RF Peak Power Analyzer Application Notes 6-4 Frequency Response. The carrier frequency response of a diode detector is determined mostly

Boonton 4500B RF Peak Power Analyzer Application Notes 6-5 6.2 Pulse Definitions -

Boonton 4500B RF Peak Power Analyzer Application Notes 6-6 Table 6-1. Pulse Terms TERM DEFINITION Base Line The two portions of a pulse

Boonton 4500B RF Peak Power Analyzer Application Notes 6-7 Automatic Measurement Terms The following terms appear in the Model 4500B Text display in

Boonton 4500B RF Peak Power Analyzer Application Notes 6-8 Automatic Measurement Sequence The automatic measurement process analyzes the captured si

Boonton 4500B RF Peak Power Analyzer Application Notes 6-9 7. The process locates the bottom amplitude (baseline) using the IEEE histogram method. A

Boonton 4500B RF Peak Power Analyzer Installation 2-4 7. Ve

Boonton 4500B RF Peak Power Analyzer Application Notes 6-10 Item dBm mW Mesial value 10.0 10.0 Sample n 8.0

Boonton 4500B RF Peak Power Analyzer Application Notes 6-11 12. The processor calculates the output values according to the following definitions:

Boonton 4500B RF Peak Power Analyzer Application Notes 6-12 Figure 6-7 Sampling Intervals 14. The processor calculates the delay be

Boonton 4500B RF Peak Power Analyzer Application Notes 6-13 6.4 Statistical Mode Automatic Measurements (Model 4500B Opt 10 only) When operating in S

Boonton 4500B RF Peak Power Analyzer Application Notes 6-14 Table 6-3. Statistical Automatic Measurements (Opt 10 only) In the Statistical mode the f

Boonton 4500B RF Peak Power Analyzer Application Notes 6-15 The following two global status values are displayed: Text TERM

Boonton 4500B RF Peak Power Analyzer Application Notes 6-16 6.5 Measurement Accuracy The Model 4500B includes a precision, internal, 1 GHz RF referen

Boonton 4500B RF Peak Power Analyzer Application Notes 6-17 The worst case approach is a very conservative method in which the extreme conditions of e

Boonton 4500B RF Peak Power Analyzer Application Notes 6-18 The value to use for calibration level uncertainty depends upon the sensor calibration tec

Boonton 4500B RF Peak Power Analyzer Application Notes 6-19 Sensor Temperature Coefficient. This term is the e

Boonton 4500B RF Peak Power Analyzer Installation 2-5 9. Verify that the Instrument Serial Number matches the number on the label at the top center o

Boonton 4500B RF Peak Power Analyzer Application Notes 6-20 The sensor calfactor uncertainty is due to uncertainties encountered while performing this

Boonton 4500B RF Peak Power Analyzer Application Notes 6-21 Step 3: The Calibrator Mismatch Uncertainty is calculated using the formula in the previ

Boonton 4500B RF Peak Power Analyzer Application Notes 6-22 Step 9: The Sensor Calfactor Uncertainty needs to be interpolated from the uncertainty va

Boonton 4500B RF Peak Power Analyzer Maintenance 7-1 7. Maintenance This section presents procedures for maintaining the Model 4500B. 7.1 Safety

Boonton 4500B RF Peak Power Analyzer Maintenance 7-2 7.5 Software Upgrade Instrument operating software has been loaded into the Model 4500B at the f

Boonton 4500B RF Peak Power Analyzer Maintenance 7-3 7.6 Test Equipment Table 7-1 lists the equipment required to test and calibrate the Model 4500B.

Boonton 4500B RF Peak Power Analyzer Maintenance 7-4 7.7 Performance Verification The verification procedure demonstrates that the Model 4500B is pe

Boonton 4500B RF Peak Power Analyzer Maintenance 7-5 Calibrator Frequency Verification Before performing the calibrator frequency and linearity verif

Boonton 4500B RF Peak Power Analyzer Maintenance 7-6 9. Remove the 15 dB attenuator and connect the HP8481A sensor directly to the Model 4500B 1 GHz

Boonton 4500B RF Peak Power Analyzer Maintenance 7-7 8. Set the 4500B calibrator to 0 dBm (CW) by selecting Calibrator > Set Level > 0.0 dBm,

Boonton 4500B RF Peak Power Analyzer Installation 2-6 (This Page Intentionally Blank)

Boonton 4500B RF Peak Power Analyzer Maintenance 7-8 Pulse Mode. To verify sensor linearity in the pulse measurement mode, proceed as follows:

Boonton 4500B RF Peak Power Analyzer Maintenance 7-9 4. Select one of the following tables (Tables 7-8 through 7-10) according to the sensor type be

Boonton 4500B RF Peak Power Analyzer Maintenance 7-10 12. For Type N sensors, connect the K-Connector® to-N adapter and the 44-6 6-dB attenuator to

Boonton 4500B RF Peak Power Analyzer Maintenance 7-11 Sensor Risetime Verification The risetime test uses the internal calibrator and the autom

Boonton 4500B RF Peak Power Analyzer Maintenance 7-12 Calibrator External Pulse Verification Verify the external pulse input for the calibrat

Boonton 4500B RF Peak Power Analyzer Maintenance 7-13 GPIB (IEEE-488) Bus Verification Use the GPIB Controller and the Model 4500B to perform

Boonton 4500B RF Peak Power Analyzer Maintenance 7-14 7.8 1GHz Calibrator Output Level Calibration Calibrator 0 dBm Setting Use the following

Boonton 4500B RF Peak Power Analyzer Maintenance 7-15 Table 7-2. 4500B Verification Checklist Check fuse type and rating: 3AG,250 volt, 1.6 amp

Boonton 4500B RF Peak Power Analyzer Maintenance 7-16 Table 7-3a. Calibrator Linearity - High Power Range Cal Level Minimum

Boonton 4500B RF Peak Power Analyzer Maintenance 7-17 Table 7-4. Sensor VSWR/Return Loss Sensor Model(s) Freq Range (GHz) VSWR Return Loss (dB) Me

Boonton 4500B RF Peak Power Analyzer Getting Started 3-1 3. Getting Started This chapter will introduce the user to the Model 4500B. The chapter wil

Boonton 4500B RF Peak Power Analyzer Maintenance 7-18 Table 7-5. 56218/318/326/340, 57318/340, 59318/340 Sensor Linearity (Pulse)

Boonton 4500B RF Peak Power Analyzer Maintenance 7-19 Table 7-7. 57006 Sensor Linearity (Pulse)

Boonton 4500B RF Peak Power Analyzer Maintenance 7-20 Table 7-9. 56518/526/540, 57518/540 Sensor Linearity (CW)

Boonton 4500B RF Peak Power Analyzer Maintenance 7-21 Table 7-10. 57006 Sensor Linearity (CW)

Boonton 4500B RF Peak Power Analyzer Maintenance 7-22 Table 7-12. 59318 Sensor Frequency Calfactor Accuracy

Boonton 4500B RF Peak Power Analyzer Maintenance 7-23 Table 7-14. 56340/540, 57340/540, 59340 Sensor Frequency Calfactor Accuracy

Boonton 4500B RF Peak Power Analyzer Maintenance 7-24 Table 7-15. Sensor Risetime Sensor Model(s) Test Level (dBm) Min High BW Measured Max Min

Boonton 4500B RF Peak Power Analyzer Maintenance 7-25 Table 7-15 (continued). Sensor Risetime Sensor Model(s) Test Level (dBm) Min High BW Measured

Boonton 4500B RF Peak Power Analyzer Maintenance 7-26 (This Page Intentionally Blank)

Boonton 4500B RF Peak Power Analyzer Appendix A 8-1 8. Appendix A SCPI Error Messages NO. MESSAGE DESCRIPTION -100 "Command E

Boonton 4500B RF Peak Power Analyzer Getting Started 3-2 Figure 3-1. Standard Model 4500B RF Peak Power Analyzer - Front Panel

Boonton 4500B RF Peak Power Analyzer Appendix A 8-2 NO. MESSAGE DESCRIPTION -249 "FPGA download err" -256 "Error file n

Boonton 4500B RF Peak Power Analyzer Appendix A 8-3 NO. MESSAGE DESCRIPTION -375 "Cmd not accepted" -376 "I2C Timeout&q

Boonton 4500B RF Peak Power Analyzer Appendix A 8-4 (This Page Intentionally Blank)

Boonton 4500B RF Peak Power Analyzer Appendix B 9-1 9. Appendix B Microsoft® Windows® XP Professional END-USER LICENSE AGREEMENT IMPORTANT-READ C

Boonton 4500B RF Peak Power Analyzer Appendix B 9-2 2. UPGRADES. To use a Product identified as an upgrade, you must first be licensed

Boonton 4500B RF Peak Power Analyzer Appendix B 9-3 * Internet-Based Services Components. The Product contains components that enable and facilitate

Boonton 4500B RF Peak Power Analyzer Appendix B 9-4 YOUR EXCLUSIVE REMEDY. Microsoft's and its suppliers' entire liability and your exclusi

Boonton 4500B RF Peak Power Analyzer Appendix B 9-5 15. LIMITATION OF LIABILITY AND REMEDIES. Notwithstanding any damages that you might incur for a

Boonton 4500B RF Peak Power Analyzer Appendix B 9-6 (This page intentionally blank)

Boonton 4500B RF Peak Power Analyzer Appendix B 9-7 "Boonton Electronics Model 4500B Operating Software" END-USER LICENSE AGREEMENT IMPOR

Boonton 4500B RF Peak Power Analyzer Getting Started 3-3 Figure 3-1a. Model 4500B - Front Panel – System and Function keys

Boonton 4500B RF Peak Power Analyzer Appendix B 9-8 8. U.S. GOVERNMENT LICENSE RIGHTS. All Product provided to the U.S. Government pursuan

Boonton 4500B RF Peak Power Analyzer Appendix C 10-1 10. Appendix C Repair Policy Model 4500B Instrument. If the Boonton Model 4500B RF Peak Power

Boonton 4500B RF Peak Power Analyzer Appendix C 10-2 Limited Warranty Boonton Electronics warrants its products to the original Purchaser to be fre

Boonton 4500B RF Peak Power Analyzer Getting Started 3-4 Table 3-1 Operating Controls, Indicators and Connections (continued) Ref. No. Front Rear

Boonton 4500B RF Peak Power Analyzer Getting Started 3-5 Figure 3-1b. Model 4500B - Front Panel – System and Func

Boonton 4500B RF Peak Power Analyzer Contents iv SAFETY SYMBOLS This safety requirement symbol (located on the rear panel) has been adopted by the In

Boonton 4500B RF Peak Power Analyzer Getting Started 3-6 Table 3-1 Operating Controls, Indicators and Connections (continued) Ref. No. Front Rear

Boonton 4500B RF Peak Power Analyzer Getting Started 3-7 Table 3-1 Operating Controls, Indicators and Connections (continued) Ref. No. Front Rear

Boonton 4500B RF Peak Power Analyzer Getting Started 3-8 Figure 3-2a. Model 4500B - Rear Panel I/O connectors Table 3-1

Boonton 4500B RF Peak Power Analyzer Getting Started 3-9 Table 3-1 Operating Controls, Indicators and Connections (continued) Ref. No. Front Rear

Boonton 4500B RF Peak Power Analyzer Getting Started 3-10 Figure 3-3a. LCD Monitor Graphic Display Table 3-2 LCD Moni

Boonton 4500B RF Peak Power Analyzer Getting Started 3-11 Table 3-2 LCD Monitor Display Fields (continued) Ref. No. Field Name Description

Boonton 4500B RF Peak Power Analyzer Getting Started 3-12 Figure 3-3b. LCD Monitor Text Display 3.4 Initialize The

Boonton 4500B RF Peak Power Analyzer Getting Started 3-13 Caution When selecting a sensor for an exercise or a measurement, be sure you know the powe

Boonton 4500B RF Peak Power Analyzer Getting Started 3-14 Table 3-3. Initialized Parameters Parameter Applies to: Default Graph/Text/H

Boonton 4500B RF Peak Power Analyzer Getting Started 3-15 Table 3-3. Initialized Parameters (continued) Parameter Applies to: Default

Boonton 4500B RF Peak Power Analyzer Contents v Contents 1. General Information ...

Boonton 4500B RF Peak Power Analyzer Getting Started 3-16 Table 3-3. Initialized Parameters (continued) Parameter Applies to: Default

Boonton 4500B RF Peak Power Analyzer Getting Started 3-17 Table 3-3. Initialized Parameters (continued) Parameter Applies to: Default

Boonton 4500B RF Peak Power Analyzer Getting Started 3-18 3.5 Calibration Before any measurements can be acquired with the Model 4500B, a sensor must

Boonton 4500B RF Peak Power Analyzer Getting Started 3-19 STEP PROCEDURE 8. Press the Chan 1 > Calibration > AutoCal menu key to init

Boonton 4500B RF Peak Power Analyzer Getting Started 3-20 This completes the Calibration 

Boonton 4500B RF Peak Power Analyzer Getting Started 3-21 MENU ITEM EXERCISE CHAN (continued) Chan 1 > Vert Scale If the Chan 1 > Vert S

Boonton 4500B RF Peak Power Analyzer Getting Started 3-22 MENU ITEM EXERCISE CHAN (continued) Chan 1 > Exten Press the Chan 1 > Exten

Boonton 4500B RF Peak Power Analyzer Getting Started 3-23 MENU ITEM EXERCISE CHAN (continued) Chan 1 > Exten Press the Chan 1 > Extens

Boonton 4500B RF Peak Power Analyzer Getting Started 3-24 Figure 3-8. Trig > Menu MENU ITEM EXERCISE TRI

Boonton 4500B RF Peak Power Analyzer Getting Started 3-25 MENU ITEM EXERCISE TRIG (continued) Trig > Trig Mode Press the Trig > Trig Mo

Boonton 4500B RF Peak Power Analyzer Contents vi 3.3 LCD Monitor Display ...

Boonton 4500B RF Peak Power Analyzer Getting Started 3-26 MENU ITEM EXERCISE TRIG (continued) Trig > HoldOff This effect of this control ca

Boonton 4500B RF Peak Power Analyzer Getting Started 3-27 Figure 3-9. Mark > Exten Menu MENU ITEM EXERCISE ME

Boonton 4500B RF Peak Power Analyzer Getting Started 3-28 MENU ITEM EXERCISE MEAS (continued) Meas > Freq CH1 Use any of the data entry con

Boonton 4500B RF Peak Power Analyzer Getting Started 3-29 3.7 Practice Exercise for Statistical Power Measurements (4500B Opt 10 only) In the followi

Boonton 4500B RF Peak Power Analyzer Getting Started 3-30 Figure 3-14. CCDF > Statistics Menu MENU ITEM EXERCIS

Boonton 4500B RF Peak Power Analyzer Getting Started 3-31 MENU ITEM EXERCISE Top Level (continued) Ref 1, R Delta and Ref 2 - Thes

Boonton 4500B RF Peak Power Analyzer Getting Started 3-32 MENU ITEM EXERCISE CHAN (continued) Chan 1 > Vert Center Press the Chan 1 > V

Boonton 4500B RF Peak Power Analyzer Getting Started 3-33 MENU ITEM EXERCISE CHAN (continued) Chan 1 > Exten Press the Chan 1 > Extens

Boonton 4500B RF Peak Power Analyzer Getting Started 3-34 MENU ITEM EXERCISE TIME (continued) Time (Statistics) Press the Time (Statistics)

Boonton 4500B RF Peak Power Analyzer Getting Started 3-35 MENU ITEM EXERCISE TIME (continued) Time (Statistics) Press the Time (Statistics)

Boonton 4500B RF Peak Power Analyzer Contents vii Table 4-14. Meas > Menu (pulse and modulated) ... 4-61 Table 4-

Boonton 4500B RF Peak Power Analyzer Getting Started 3-36 MENU ITEM EXERCISE MEAS (continued) Meas > Freq CH2 Frequency entry for Channel

Boonton 4500B RF Peak Power Analyzer Getting Started 3-37 MENU ITEM EXERCISE TRIG (continued) Trig (Statistical) Press the Trig > Gate 1

Boonton 4500B RF Peak Power Analyzer Getting Started 3-38 (This Page Intentionally Blank)

Boonton 4500B RF Peak Power Analyzer Operation 4-1 4. Operation This section presents the control menus and procedures for operating the Model 4500

Boonton 4500B RF Peak Power Analyzer Operation 4-2 4.2 Manual Operation In the manual mode, the instrument is controlled from the front panel by sele

Boonton 4500B RF Peak Power Analyzer Operation 4-3 6. A Numerical Value in a menu entry box represents the current value of that parameter. See the C

Boonton 4500B RF Peak Power Analyzer Operation 4-4 4.4 Data Entry Controls The numeric keypad illustrated in Figure 4-6 is one of the three data entr

Boonton 4500B RF Peak Power Analyzer Operation 4-5 The units keys labeled G, M, and k are used to enter frequencies in Gigahertz, Megahertz, and kiloh

Boonton 4500B RF Peak Power Analyzer Operation 4-6 The message priority from highest to lowest is: Highest Measuring Stopped!! No measurements

Boonton 4500B RF Peak Power Analyzer Operation 4-7 4.6 Top Level Menu The commands in the Top Level Menu (Figure 4-7) enable you to control the measu

Boonton 4500B RF Peak Power Analyzer Contents viii Table 4-50. Spcl > Menu ...

Boonton 4500B RF Peak Power Analyzer Operation 4-8 Table 4-1. Top Level Menu (continued) Menu Item Function (Type) Selection

Boonton 4500B RF Peak Power Analyzer Operation 4-9 Table 4-1. Top Level Menu (continued) Menu Item Function (Type) Selectio

Boonton 4500B RF Peak Power Analyzer Operation 4-10 Figure 4-8. System Keys 4.7 System Keys The system keys are located at the t

Boonton 4500B RF Peak Power Analyzer Operation 4-11 Print Pressing the Print key will cause the screen image to be captured to memory and the Print

Boonton 4500B RF Peak Power Analyzer Operation 4-12 4.9 CHAN Key and Chan # > Menu The CHAN key activates the Chan # > menu and associated subm

Boonton 4500B RF Peak Power Analyzer Operation 4-13 Figures and Tables The figures and tables which describe the Chan # > family of menus are s

Boonton 4500B RF Peak Power Analyzer Operation 4-14 Table 4-2. Chan # > Menu (continued) Menu Item Function (Type) Selec

Boonton 4500B RF Peak Power Analyzer Operation 4-15 Table 4-2. Chan # > Menu (continued) Menu Item Function (Type) Sele

Boonton 4500B RF Peak Power Analyzer Operation 4-16 Calibration A discussion of the internal calibration capability is presented in Subsection 4

Boonton 4500B RF Peak Power Analyzer Operation 4-17 Table 4-3. Chan # > Calibration > Submenu (continued) Menu Item Function

Boonton 4500B RF Peak Power Analyzer Contents ix CALCulate:AMEAsure:MODE ... 5-1

Boonton 4500B RF Peak Power Analyzer Operation 4-18 Table 4-3. Chan # > Calibration > Submenu (continued) Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-19 Table 4-4. Chan # > Extensions > Submenu Menu Item Function (Type)

Boonton 4500B RF Peak Power Analyzer Operation 4-20 Table 4-4. Chan # > Extensions > Submenu (continued) Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-21 Table 4-4A. Chan # > Extensions > Corrections > Submenu Menu Item Function

Boonton 4500B RF Peak Power Analyzer Operation 4-22 Table 4-4A. Chan # > Extensions > Corrections > Submenu (continued) Menu Item

Boonton 4500B RF Peak Power Analyzer Operation 4-23 Table 4-4B. Chan # > Extensions > Define Pulse > Submenu (continued) Menu Item

Boonton 4500B RF Peak Power Analyzer Operation 4-24 Table 4-4B. Chan # > Extensions > Define Pulse > Submenu (continued) Menu Item

Boonton 4500B RF Peak Power Analyzer Operation 4-25 Figure 4-17a. Sum of Channel 1 and Channel 2 power. Markers

Boonton 4500B RF Peak Power Analyzer Operation 4-26 Channel Math The Channel Math function calculates and displays the sum, difference, ratio or pro

Boonton 4500B RF Peak Power Analyzer Operation 4-27 Table 4-6. Chan Math > Expression > Submenu Menu Item Function (Type)