Related Manuals for Anritsu Site Master S820D
Summary of Contents for Anritsu Site Master S820D
- Page 1 Site Master ™ S810D/S820D Cable and Antenna Analyzer 25 MHz to 20 GHz User’s Guide S331D Site Master Site Master MS2712 Site Master...
- Page 3 Anritsu Company. UPDATES Updates to this manual, if any, may be downloaded from the Anritsu internet site at: http://www.anritsu.com. June 2012 10680-00001 Copyright ã...
-
Page 7: Table Of Contents
Table of Contents Chapter 1 General Information Introduction ........1-1 Description . - Page 8 Introduction ........6-1 Anritsu Tool Box with Line Sweep Tools ....6-1 Installing the Software .
-
Page 9: Chapter 1 General Information
Chapter 1 General Information Introduction This chapter provides a description, performance specifications, optional accessories, pre- ventive maintenance, and calibration requirements for the Site Master™ models S810D and S820D. Throughout this manual, the term Site Master will refer to the S810D and S820D. Model Frequency Range S810D... -
Page 10: Standard Accessories
806-62 Automotive Cigarette Lighter/12 Volt DC Adapter 800-441 Serial Interface Cable (null modem type) 2300-530 Anritsu Tool Box with Line Sweep Tools DVD 34RKNF50 Precision Adapter, Ruggedized K(m) to N(f) (not included when option 11NF is ordered) 551-1691-R USB to RS-232 Adapter Cable... -
Page 11: Coaxial Calibration Components
Chapter 1 General Information Coaxial Calibration Components K Connectors Part Number Description 22K50 Precision K(m) Short/Open, 40 GHz 22KF50 Precision K(f) Short/Open, 40 GHz 28K50 Precision Termination, DC to 40 GHz, 50W, K(m) 28KF50 Precision Termination, DC to 40 GHz, 50W, K(f) 15KKF50-1.5A Armored Test Port Cable, 1.5 meter K(m) to K(f) 20 GHz 15RKKF50-1.5A... -
Page 12: Coaxial Adapters
Chapter 1 General Information Coaxial Adapters Part Number Description 34NN50A Precision Adapter, DC to 18 GHz, N(m)-N(m), 50 Ohm 34NFNF50 Precision Adapter, DC to 18 GHz, N(f) - N(f), 50 Ohm 34RKNF50 Precision Ruggedized Adapter, K(m)-N(f), DC to 18 GHz, 50 Ohms 34RSN50 Precision Ruggedized Adapter, WSMA(m)-N(m), DC to 18 GHz, 50 Ohms K220B... -
Page 13: Performance Specifications
Description Value Frequency Range: Site Master S810D 0.025 to 10.5 GHz Site Master S820D 0.025 to 20.0 GHz £3 ppm @ 25° C Frequency Accuracy (Fixed CW ON) Frequency Resolution 10 kHz (100 kHz for Distance To Fault) Output Power (from RF Out port) <0 dBm (at any particular frequency) - Page 14 Chapter 1 General Information Description Value Return Loss: 0.00 to 60 dB Vertical Range: VSWR: 1.00 to 65.53 Horizontal Range: 0 to (# of data points –1) x Horizontal Resolution to a maximum of 1197m (3929 ft), # of data points = 130, 259, or 517 Horizontal ´...
- Page 15 Power Monitor Measurement ±1dB maximum for >–40 dBm and <18 GHz using (S8X0D/5) Accuracy: 560-7N50B S8x0D: 4-pin DIN connector; for use with Anritsu detectors Detector (560-7N50B or 560-7S50B): Type N(m) Ports: or SMA(m), 50ohm, +20 dBm (Peak), Maximum input without damage...
-
Page 16: Preventive Maintenance
For optimum calibration, Anritsu recommends using precision calibration com- ponents. Annual Verification Anritsu recommends an annual calibration and performance verification of the Site Master and the OSL calibration components by local Anritsu service centers. Anritsu service cen- ters are listed in Table 1-2 on the following page. -
Page 17: Esd Precautions
Chapter 1 General Information The Site Master itself is self-calibrating, meaning that there are no field-adjustable compo- nents. However, the OSL calibration components are crucial to the integrity of the calibra- tion and therefore, must be verified periodically to ensure performance conformity. This is especially important if the OSL calibration components have been accidentally dropped or over-torqued. -
Page 18: Customer Service
Chapter 1 General Information Customer Service For the latest service and sales contact information in your area, please visit: http://www.anritsu.com/contact.asp 1-10... -
Page 19: Chapter 2 Functions And Operations
The Site Master can also be powered by a 12.5 Vdc external source. The external source can be either the Anritsu AC-DC Adapter (P/N 40-168) or 12.5 Vdc Automotive Cigarette Lighter Adapter (P/N 806-62). Both items are standard accessories. -
Page 20: Display Overview
RF Out/ +23 dBm at ±50 Vdc. Reflection 50W GPS Antenna GPS antenna connection. Do not connect anything other than the Anritsu GPS antenna to this port. Display Overview Figure 2-2 illustrates some of the key information areas of the S8x0D display. -
Page 21: Front Panel Overview
Chapter 2 Functions and Operations Front Panel Overview The Site Master menu-driven user interface is easy to use and requires little training. Hard keys on the front panel are used to initiate function-specific menus. There are four function hard keys located below the status window: Mode, Frequency/Distance, Amplitude and Measure/Display. -
Page 22: Function Hard Keys
Chapter 2 Functions and Operations Function Hard Keys MODE Opens the mode selection box (below). Use the Up/Down arrow key to select a mode. Press the key to implement. ENTER o Measurement Mode Freq - SWR Return Loss Cable Loss - One Port Cable Loss - Two Port DTF - SWR Return Loss... -
Page 23: Keypad Hard Keys
ENTER Implements the current action or parameter selection. Turns the Anritsu Site Master on or off. When turned on, the saved system state at the last turn-off is restored. If the ESCAPE/CLEAR key is held down while the ON/OFF key is pressed, the factory preset state will be restored. - Page 24 Chapter 2 Functions and Operations The following keypad hard key functions are printed in blue on the keypad keys. This key is used to adust the brightness of the color display. Use the Up/Down arrow key and ENTER to adjust the display brightness. AUTO Automatically scales the status window for optimum resolution in cable SCALE...
-
Page 25: Soft Keys
Chapter 2 Functions and Operations Soft Keys Each keypad key opens a set of soft key selections. Each of the soft keys has a correspond- ing soft key label area on the status window. The label identifies the function of the soft key for the current Mode selection. - Page 26 Chapter 2 Functions and Operations FREQ/DIST AMPLITUDE MEAS/DISP MODE=DTF: Resolu- SOFTKEYS: tion Single Bottom Sweep Trace DTF Aid Math Trace Overlay Fixed Waveguide Coax Cable More On/Off Waveguide Loss Loss Select Trace Cutoff Prop Freq Waveguide Cable List Window Window Page Up Page Back...
- Page 27 Chapter 2 Functions and Operations MODE=POWER MONITOR: AMPLITUDE SOFTKEYS: Units Offset Zero Figure 2-7. Power Monitor Mode Soft Key Labels (Option 5) On/Off Location Options Quality Clock Units Self Test Hour Printer Reset Reset Status Minute Back Change Month Date Format Language English...
- Page 28 Chapter 2 Functions and Operations On/Off Location Options Quality Clock Printer Self Test Change Hour Date Format Reset Reset Status Minute Back Month Language English Year Back Back Figure 2-9. SYS Key Menu in Power Monitor Mode 2-10...
- Page 29 Chapter 2 Functions and Operations FREQ/DIST Displays the frequency and distance menu depending on the measurement mode. Frequency The frequency and distance menu for cable and antenna analyzer measurements Menu provides for setting sweep frequency end points when mode is selected. Se- Freq lected frequency values may be changed using the keypad or Up/Down arrow key.
- Page 30 Chapter 2 Functions and Operations Distance Provides for setting the cable loss and relative propagation velocity of the coax- Sub-Menu ial cable. Selected values may be changed using the Up/Down arrow key or key- (Coax Cable) pad. — Opens the Cable Loss parameter for data entry. Enter the loss per Loss meter (or foot) for the type of transmission line being tested.
- Page 31 Chapter 2 Functions and Operations — Opens the status window to change the resolution. Choose 130, Resolution 259, or 517 data points. (In DTF mode, resolution can only be adjusted through the DTF Aid table.) — Toggles the sweep between single sweep and continuous Single Sweep sweep.
- Page 32 Chapter 2 Functions and Operations — Turns the selected marker on or off. On/Off — Opens the selected marker parameter for data entry. Press Edit ENTER when data entry is complete or ESCAPE to restore the previous value. — Displays delta amplitude value as well as delta fre- Delta (Mx-M1) quency or distance for the selected marker with respect to the M1 marker.
- Page 33 Chapter 2 Functions and Operations LIMIT Pressing LIMIT in cable and antenna analyzer frequency and distance mode acti- vates a menu of limit related functions. Use the corresponding soft key to select the desired limit function. Then use the Up/Down arrow key to change its value, which is displayed in the message area at the bottom of the status window.
- Page 34 Chapter 2 Functions and Operations In cable and antenna analyzer or optional power monitor mode, pressing the SYS key displays the following System menu soft key selections: — Displays a second level of functions: Options — Select the unit of measurement (metric or English). Units —...
-
Page 35: Power Monitor Menus
Chapter 2 Functions and Operations Power Monitor Menus Selecting from the mode menu causes the soft keys, described below, to be Power Monitor displayed and the corresponding values shown in the message area. The following soft keys are available when the AMPLITUDE key is pressed. —... -
Page 36: Symbols
Integrator Failure. Intermittent integrator failure may be caused by inter- ference from another antenna. Persistent integrator failure indicates a need to return the Site Master to the nearest Anritsu service center for repair. Lock fail indication. Check battery. (If the Site Master fails to lock with a fully charged battery, call your Anritsu Service Center.) -
Page 37: Error Messages
Battery voltage is less than 9.5 volts. Charge battery. If condition per- sists, call your Anritsu Service Center. External Power Low External supply voltage is less than 10 volts. Call your Anritsu Service Center PLL Failed Phase-locked loops failed to lock. Charge battery. If condition persists... - Page 38 Chapter 2 Functions and Operations Range Error Messages A listing of Range Error messages is provided in Table 2-3. Table 2-3. Range Error Messages Error Message Description RANGE The start (F1) frequency is greater than the stop (F2) frequency. ERROR:F1 > F2 RANGE The start (D1) distance is greater than the stop (D2) distance.
- Page 39 Chapter 2 Functions and Operations General Error Messages A listing of General Error Messages is provided below. Table 2-4. General Error Messages Error Message Description A complete open, short, and load calibration must be performed before Incomplete calibration can be turned on. Dist Requires Valid distance to fault plots require a non-zero frequency span.
-
Page 40: Battery Information
The battery can be charged while installed in the Site Master. Step 1. Turn the Site Master off. Step 2. Connect the AC-DC adapter (Anritsu part number: 40-168) to the Site Master charging port. Step 3. Connect the AC adapter to a 120 VAC or 240 VAC power source as appropriate for your application. - Page 41 A blinking red light indicates less than 13 VDC is being supplied to the charger stand. Check that the correct AC charger adapter is connected to the charger stand. If the battery fails to charge, contact your nearest Anritsu Service Center. 2-23...
-
Page 42: Determining Remaining Battery Life
Chapter 2 Functions and Operations Determining Remaining Battery Life When the AC-DC adapter is unplugged from the Site Master, the battery indicator symbol will be continuously displayed at the top left corner of the Site Master display (Figure 2-10). A totally black bar within the battery icon indicates a fully charged battery. When LOW BATT replaces the battery indicator bar at the top left corner, a couple of minutes of measurement time remains. - Page 43 Chapter 2 Functions and Operations Selftest Temperature ... . 24°C Memory ....PASSED RTC Battery... . . 3.1V Voltage .
-
Page 44: Important Battery Information
· Recharge the battery only in the Site Master, or in an Anritsu approved charger. · When the Site Master or the charger is not in use, disconnect it from the power source. -
Page 45: Chapter 3 Getting Started
Power On Procedure The Anritsu Site Master is capable of up to 1.5 hours of continuous operation from a fully charged, field-replaceable battery. Built-in energy conservation features allow battery life to be extended. -
Page 46: Cw Source Module Setup With Option 22
Chapter 3 Getting Started CW Source Module Setup with Option 22 Before making Cable Loss - Two Port measurements with Option 22 enabled, the CW source module must be installed. NOTE: To avoid damaging the Site Master, always turn off its power before connecting/disconnecting the cable from the CW source module to or from the CW Source Module Interface connector. - Page 47 Chapter 3 Getting Started To manually select the frequency range for an OSL calibration: Step 1. Press the FREQ/DIST key. Step 2. Press the soft key. Step 3. Enter the desired start frequency using the key pad or the Up/Down arrow key. Step 4.
- Page 48 Chapter 3 Getting Started When an OPEN is connected, a trace will be displayed between 0-20 dB. When a SHORT is connected, a trace will be displayed between 0-20 dB. When a LOAD is connected, a trace will be displayed between 0-50 dB. The following procedures explain standard OSL calibration.
- Page 49 Chapter 3 Getting Started connector is selected. The selected connector type is marked by the symbol (*) and is also displayed at the bottom of the screen. If the correct DUT connector is selected, proceed with the calibration (go to Step 4.
- Page 50 Chapter 3 Getting Started Waveguide OSL Calibration Step 1. Select the appropriate frequency range, as described on page 3-2. Step 2. Press the START CAL (3) key to start the OSL calibration. Step 3. Select the soft key. The menu will ap- Waveguide Waveguide Flange Selection pear, with the Start Calibration function highlighted.
- Page 51 Chapter 3 Getting Started NOTE: The calibration coefficients stored in the Site Master and used during the OSL or WG calibrations are specific to the calibration components listed as accessories for the S810D or S820D. Using calibration components that are not listed as accessories may lead to inaccurate calibration results, unless the user-defined configurations are actually used to perform the calibration.
- Page 52 Chapter 3 Getting Started Auto Scale The Site Master can automatically set the scale to the minimum and maximum values of the measurement on the y-axis of the graph. This function is particularly useful for mea- surements in SWR mode. To automatically set the scale, press the AUTO SCALE key. The Site Master will automatically set the top and bottom scales to the minimum and maxi- mum values of the measurement with some margin on the y-axis of the LCD.
-
Page 53: Save And Recall A Setup
Chapter 3 Getting Started Step 1. Press the MODE key. Step 2. Select mode. The Site Master automatically sets DTF Return Loss DTF SWR D1 to zero. Step 3. Press the soft key. Step 4. Enter the appropriate D2 value for the maximum length of the transmission line and press the ENTER key to set the D2 value. -
Page 54: Changing The Units
Chapter 3 Getting Started Step 2. Use the soft keys to enter a label for the saved trace. For example, to save a display with the name “TX1 RETURN LOSS” press the soft key group that contains the letter “T” then press the “T” soft key. Press the soft key group that contains the letter “X”... -
Page 55: Adjusting Limits
Chapter 3 Getting Started Step 3. Press the soft key and enter an appropriate value using the keypad or Edit Up/Down arrow key to move the marker without redrawing the trace. Pressing the ON/OFF soft key activates or deactivates the M1 marker function. Step 4. - Page 56 Chapter 3 Getting Started The Site Master also does not allow vertical limit segments. A limit segment in which the start and end frequencies are the same, but the limit values are dif- ferent, cannot be specified. Enabling the Limit Beep Both limit types can indicate a limit violation by enabling the Limit Beep.
-
Page 57: Printing
Chapter 3 Getting Started Printing Printing is accomplished by selecting an available printer and pressing the print key as de- scribed below. Refer to the particular printer operating manual for specific printer settings. Printing a Screen Step 1. Obtain the desired measurement display. Step 2. -
Page 58: Using The Soft Carrying Case
Using the Soft Carrying Case The soft carrying case has been designed such that the strap can be unsnapped to allow the case to be easily oriented horizontally; thus allowing the Anritsu controls to be more easily accessed (Figure 3-5). -
Page 59: Chapter 4 Cable And Antenna Analyzer Measurements
Chapter 4 Cable and Antenna Analyzer Measurements Introduction This chapter provides a description of cable and antenna analyzer measurements, including line sweeping fundamentals and line sweeping measurement procedures, available when the Site Master is in frequency or DTF mode. Line Sweep Fundamentals In wireless communication, the transmit and receive antennas are connected to the radio through a transmission line. -
Page 60: Fixed Cw Mode
Chapter 4 Cable & Antenna Measurements The performance of a transmission feed line system may be affected by excessive signal re- flection and cable loss. Signal reflection occurs when the RF signal reflects back due to an impedance mismatch or change in impedance caused by excessive kinking or bending of the transmission line. -
Page 61: Information Required For A Line Sweep
OSLK50 or OSLN50 (or use individual components below) Precision Open/Short, Anritsu 22K50, 3/8 Offset Short 22KF50, 22N50 or 22NF50 Precision Load, Anritsu 28K50, 28KF50, Precision Waveguide Load 28N50-2 or 28NF50-2 Test Port Extension Cable, Anritsu Test Port Extension Cable, Anritsu 15NNF50-1.5B or 15KKF50-1.5A... - Page 62 Chapter 4 Cable & Antenna Measurements Step 3. Set the start and stop frequencies, automatically by selecting a signal standard or manually using the F1 and F2 soft keys, as described on page 3-3. Step 4. Calibrate the Site Master as described on page 3-3. Step 5.
- Page 63 OSLK50 or OSLN50 (or use individual components below) Precision Open/Short, Anritsu 22K50, 3/8 Offset Short 22KF50, 22N50 or 22NF50 Precision Load, Anritsu 28K50, 28KF50, Precision Waveguide Load 28N50-2 or 28NF50-2 Test Port Extension Cable, Anritsu Test Port Extension Cable, Anritsu 15NNF50-1.5B or 15KKF50-1.5A...
- Page 64 Chapter 4 Cable & Antenna Measurements Device Under Test Transmission Feed Line Procedure - Cable Loss - One Port Mode Step 1. Press the key. MODE Step 2. Select using the Up/Down arrow key and FREQ-CABLE LOSS - ONE PORT press ENTER Step 3.
- Page 65 Chapter 4 Cable & Antenna Measurements Step 6. Connect the Device Under Test to the Site Master phase stable Test Port Exten- sion cable. A trace will be displayed on the screen as long as the Site Master is in sweep mode. Connect a Short to the other end of the Device Under Test ca- ble.
- Page 66 Chapter 4 Cable & Antenna Measurements Figure 4-5. Typical Transmission Line Cable Loss Trace with Smoothing Applied...
- Page 67 Site Master Model S810D or S820D with Option 22SF or 22NF CW Source Module CWM220B-SF or CWM220B-NF (included in option 22xF) Detector 560-7S50B or 560-7N50B (included in option 22xF) Test Port Extension Cable, Anritsu 15NNF50-1.5B or 15KKF50-1.5A Procedure - Cable Loss – Two Port Mode Step 1. Press the key.
- Page 68 Site Master Model S810C or S820C Site Master Model S810C or S820C Precision Open/Short, Anritsu 22K50, 1/8 Offset 22KF50, 22N50 or 22NF50 Precision Load, Anritsu 28K50, 28KF50, 3/8 Offset 28N50-2 or 28NF50-2 Test Port Extension Cable, Anritsu Precision Waveguide Load 15NNF50-1.5C or 15KKF50-1.5C...
- Page 69 Chapter 4 Cable & Antenna Measurements NOTE: Selecting the right propagation velocity, attenuation factor and distance is very important for accurate measurements, otherwise the faults can not be identified accurately. Step 9. Press SAVE DISPLAY (page 3-9) name the trace, and press ENTER. Step 10.
- Page 70 Chapter 4 Cable & Antenna Measurements Procedure - DTF-SWR Mode The following steps explain how to measure DTF in SWR mode. Step 1. Press the key. MODE Step 2. Select the using the Up/Down arrow key and press ENTER. DTF-SWR Step 3.
- Page 71 Site Master Model S810D or S820D Site Master Model S810D or S820D Precision Open/Short, Anritsu 22K50, 1/8 Offset 22KF50, 22N50 or 22NF50 Precision Load, Anritsu 28K50, 28KF50, 3/8 Offset 28N50-2 or 28NF50-2 Test Port Extension Cable, Anritsu Precision Waveguide Load 15NNF50-1.5C or 15KKF50-1.5C...
- Page 72 Chapter 4 Cable & Antenna Measurements The following trace is an example of an antenna return loss measurement trace. Figure 4-7. Antenna Return Loss Trace Calculate the threshold value and compare the recorded Lowest Return Loss to the calcu- lated threshold value. æ...
-
Page 73: Chapter 5 Power Measurement
Introduction The Site Master can be used for making power measurements with broadband RF detectors, such as the 10 MHz to 20 GHz Anritsu 560-7N50B or 560-7S50B. The power monitor dis- plays the measured power results in dBm or Watts. - Page 74 Chapter 5 Power Measurement Displaying Relative Power NOTE: With option 22, the Site Master can make this relative power measure- ment over a swept frequency range (page 4-8). Step 9. With the desired base power level input to the Site Master, press the soft key.
- Page 75 Use the standard Power Monitor mode to make such measurements. Alternatively, to use the Power Monitor mode without the CW source module, the RF detector can be connected directly to the Site Master via the adaptor ca- ble, Anritsu part number 66379. 5-3/5-4...
-
Page 77: Chapter 6 Anritsu Tool Box And Line Sweep Tools
Programs folder to the Anritsu folder. Then click on the Anritsu Tool Box shortcut to open the Anritsu Tool Box. Once the Tool Box is open, move the mouse pointer over any of the application icons to view a short description of the application. -
Page 78: Installing The Software
The Anritsu Tool Box may also contain the Anritsu Master Software Tools software links and the Anritsu Map Master software. If this software had already been installed on your computer, the Tool Box will link to it. If not, clicking on the icons will bring you to the... -
Page 79: Why Use Line Sweep Tools
Help create reports of the findings quickly and to a professional standard. Line Sweep Tools can open DAT files from HHST; or VNA/DAT files from Anritsu’s E-series instruments. It also can open PIM files. Either way, once the file is opened with Line Sweep Tools, it can be inspected and modified in many different ways. -
Page 80: Line Sweep Tools Features
This leads to a short learning curve and easy trace collection, validation, and reporting. Anritsu’s Line Sweep Tools program includes: Presets for markers and limit lines take hours off the report preparation time for a user with dozens of traces to verify. -
Page 81: Appendix A Reference Data
Appendix A Reference Data Coaxial Cable Technical Data Tables A-1 and A-2 provide standard listings of common coaxial cables along with their Relative Propagation Velocity and Nominal Attenuation values in dB/m @ 1, 2, and 2.5 GHz. (N/A indicates that the specification is not applicable to the listed cable.) Table A-1. - Page 82 Appendix A Reference Data Table A-1. Coaxial Cable Technical Data (2 of 4) Nominal Nominal Nominal Relative Attenuation Attenuation Attenuation Manufacturer Cable Type Propagation dB/m @ dB/m @ dB/m @ Velocity (Vf) 1 GHz 2 GHz 2.5 GHz Belden RG8, 8A 0.659 0.262 Belden...
- Page 83 Appendix A Reference Data Table A-1. Coaxial Cable Technical Data (3 of 4) Nominal Nominal Nominal Relative Attenuation Attenuation Attenuation Manufacturer Cable Type Propagation dB/m @ dB/m @ dB/m @ Velocity (Vf) 1 GHz 2 GHz 2.5 GHz Eupen EC7-50 1-5/8 0.88 0.025 0.038...
- Page 84 Appendix A Reference Data Table A-1. Coaxial Cable Technical Data (4 of 4) Nominal Nominal Nominal Relative Attenuation Attenuation Attenuation Manufacturer Cable Type Propagation dB/m @ dB/m @ dB/m @ Velocity (Vf) 1 GHz 2 GHz 2.5 GHz Times LMR100 0.792 1.15 1.31...
-
Page 85: Calibration Components
Appendix A Reference Data Calibration Components The calibration components part numbers in the following table are broken down as fol- lows: 23 = 1/8 Offset Short 24 = 3/8 Offset Short 26 = Precision Load Table A-3. Precision Waveguide Calibration Components Part Number Freq. -
Page 86: Waveguide-To-Coaxial Adapters
Appendix A Reference Data Waveguide-to-Coaxial Adapters Part numbers that end with N = N type connector, part numbers that end with K = K type connectors. Table A-4. Coaxial to Universal Waveguide Adapters Part Number Freq. Range Waveguide Type Compatible Flanges 35UM70N 5.85 to 8.20 GHz WR137, WG14... -
Page 87: Flange Compatibility
Appendix A Reference Data Flange Compatibility Table A-5. Universal Flange Compatibility (1 of 3) Calibration Start Stop Waveguide Flange Compatible Component Frequency Frequency Type Type Flanges Part Number (GHz) (GHz) xxUM40 3.300 4.900 WR229 UnivM-229 PDR40 WG11A xxUM48 3.950 5.850 WR187 UnivM-187 CAR48... - Page 88 Appendix A Reference Data Table A-4. Universal Flange Compatibility (2 of 3) Calibration Start Stop Waveguide Flange Compatible Component Frequency Frequency Type Type Flanges Part Number (GHz) (GHz) xxUA187 3.950 5.850 WR187 UnivUS-187 CPR187F WG12 CPR187G UG-1352/U UG-1353/U UG-1728/U UG-1729/U UG-148/U UG-149A/U xxUA159...
- Page 89 Appendix A Reference Data Table A-4. Universal Flange Compatibility (3 of 3) Calibration Start Stop Waveguide Flange Compatible Component Frequency Frequency Type Type Flanges Part Number (GHz) (GHz) xxUA62 12.400 18.000 WR62 UnivUS-62 UG-541A/U WG18 UG-419/U UG-1665/U UG-1666/U xxUA42 17.000 26.500 WR42 UnivUS-42...
-
Page 90: Waveguide Technical Data
Appendix A Reference Data Waveguide Technical Data Table A-6. Waveguide Offset Short* Specifications Offset Short P/N Frequency (GHz) Length (mm) 20,710 ± 0.08 24UM70 6.926 17,040 ± 0.05 24UM84 8.396 14,675 ± 0.05 24UM100 10.084 11,978 ± 0.04 24UM120 12.247 30,979 ±... - Page 91 Appendix A Reference Data Table A-7. Waveguide Technical Data (1 of 2) Waveguide Start Frequency Stop Frequency Cutoff Frequency Mid-Band Loss Type/Model (GHz) (GHz) (GHz) (dB/m, GHz) WR229 3.300 4.900 2.577 0.0374 WG11A WR187 3.950 5.850 3.152 0.0515 WG12 WR159 4.900 7.050 3.711...
- Page 92 Appendix A Reference Data Table A-6. Waveguide Technical Data (2 of 2) Waveguide Start Frequency Stop Frequency Cutoff Frequency Mid-Band Loss Type/Model (GHz) (GHz) (GHz) (dB/m, GHz) EW132 11.000 15.350 9.220 0.17 EW180 14.000 19.700 11.150 0.1939 EW220 17.000 23.600 13.340 0.2822 Cablewave...
-
Page 93: Appendix B Windowing
Appendix B Windowing Introduction The FREQ/DIST menu (page 2-11) provides for setting the cable loss and relative propa- gation velocity of the coaxial cable. The key opens a menu of FFT windowing Window types for the DTF calculation. The theoretical requirement for inverse FFT is for the data to extend from zero frequency to infinity. - Page 94 Appendix B Windowing D i s t a n c e T o F a u l t - 1 0 - 1 5 - 2 0 - 2 5 - 3 0 R e t u r n L o s s ( d B ) - 3 5 - 4 0 - 4 5...
- Page 95 Appendix B Windowing D i s t a n c e T o F a u l t - 1 0 - 1 5 - 2 0 - 2 5 - 3 0 R e t u r n L o s s ( d B ) - 3 5 - 4 0 - 4 5...
-
Page 97: Appendix C Signal Standards
Appendix C Signal Standards Introduction Table C-1 provides a listing of common Spectrum Analyzer signal standards. Table C-1. Spectrum Analyzer Signal Standards Standard Center (MHz) Span (MHz) Valid Channels AMPS / EIA 553 - Uplink 1-799, 990-1023 AMPS / EIA 553 - Downlink 1-799, 990-1023 C-450 (P) - Uplink 1-800... - Page 98 Appendix C Signal Standards Standard Center (MHz) Span (MHz) Valid Channels CDMA2000 Class 2, (TACS 0-1100, 1329-2047 Band) - Downlink CDMA2000 Class 3, (JTACS 1-799, 801-1039, 1041-1199 878.5 Band) - Uplink CDMA2000 Class 3, (JTACS 1-799, 801-1039, 1041-1199 878.5 Band) - Downlink CDMA2000 Class 4, Korea PCS 0-599 1810...
- Page 99 Appendix C Signal Standards Standard Center (MHz) Span (MHz) Valid Channels N-AMPS / IS-88U - Downlink 1-799, 990-1023 897.5 NADC IS136 Cellular - Uplink 1-799, 990-1023 NADC IS136 Cellular - Downlink 1-799, 990-1023 NADC IS136 PCS - Uplink 1-1199 1920 NADC IS136 PCS - Downlink 1-1199 1920...
- Page 100 Appendix C Signal Standards Table C-2 provides a listing of common VNA signal standards. Table C-2. VNA Signal Standards Standard Start Freq (MHz) Stop Freq (MHz) Bluetooth US & Europe Uplink 2400 2484 Bluetooth US & Europe Downlink 2400 2484 Bluetooth US &...
- Page 101 Appendix C Signal Standards Standard Start Freq (MHz) Stop Freq (MHz) IEEE 802 11 DS Fullband 2412 2484 IEEE 802 11 B G Uplink 2400 2484 IEEE 802 11 B G Downlink 2400 2484 IEEE 802 11 B G Fullband 2400 2484 IMT 2000 UMTS WCDMA Uplink...
- Page 102 Appendix C Signal Standards Standard Start Freq (MHz) Stop Freq (MHz) PDC 800 Downlink PDC 800 Fullband PDC 1500 Uplink 1525 1549 PDC 1500 Downlink 1477 1501 PDC 1500 Fullband 1477 1549 PHS Uplink 1895 1918 PHS Downlink 1895 1918 PHS Fullband 1895 1918...
- Page 103 Index dimensions....1-6 directivity ....1-5 accessories ....1-2 display .
- Page 104 integrator ....2-19 integrator failure ... . . 2-18 real-time clock ....2-19 interfering signals .
- Page 105 valley ....2-14 verification....1-8 VSWR ....1-5, 4-14 Waveguide Components .
Need help?
Do you have a question about the Site Master S820D and is the answer not in the manual?
Questions and answers