User’s Manual V1.4
Signal Generator Models
BENCHTOP MICROWAVE
SOURCE, COMPACT SIGNAL
GENERATOR, COMPACT SYNTHESIZER
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WARRANTY
Berkeley Nucleonics Corporation warrants all instruments, including component parts, to be
free from defects in material and workmanship, under normal use and service for a period of
one year. If repairs are required during the warranty period, contact the factory for
component replacement or shipping instructions. Include the serial number of the instrument.
This warranty is void if the unit is repaired or altered by others than those authorized by
Berkeley Nucleonics Corporation.
IMPORTANT! PLEASE READ CAREFULLY
NOTIFICATION OF COPYRIGHT
THE FIRMWARE IN THIS DEVICE IS PROTECTED BY COPYRIGHT LAWS AND
INTERNATIONAL TREATY. YOU MUST TREAT THE FIRMWARE LIKE ANY
OTHER COPYRIGHTED MATERIAL. COPYRIGHT LAWS PROHIBIT MAKING
ADDITIONAL COPIES OF THE FIRMWARE FOR ANY REASON OTHER THAN
SPECIFICALLY DESCRIBED IN THE LICENSE BELOW. YOU MAY NOT COPY
THE WRITTEN MATERIALS ACCOMPANYING THE PRODUCT.
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Table of Contents
TABLE OF CONTENTS ................................................................................................................................ 3
1 INTRODUCTION ....................................................................................................................................... 5
1.1 WHAT DO YOU GET? ...................................................................................................................................... 5
1.2 GENERAL FEATURES AND FUNCTIONS (MODEL OVERVIEW) .................................................................................... 5
1.3 OPTIONS ...................................................................................................................................................... 6
1.4 FRONT PANEL OVERVIEW (BENCHTOP MICROWAVE SOURCE MODELS ONLY) ................................................... 7
1.5 REAR PANEL CONNECTIONS ............................................................................................................................. 8
2 GETTING STARTED ................................................................................................................................. 10
2.1 SYSTEM REQUIREMENTS................................................................................................................................ 10
2.2 UNPACKING THE INSTRUMENT ........................................................................................................................ 10
2.3 INITIAL INSPECTION ...................................................................................................................................... 10
2.4 STARTING THE INSTRUMENT ........................................................................................................................... 10
2.4.1 Applying Power ............................................................................................................................. 10
2.4.2 Connecting to LAN ......................................................................................................................... 11
2.4.3 Direct connectivity to host via Ethernet cable (no router) ............................................................. 11
2.4.4 Connecting though USBTMC ......................................................................................................... 11
2.4.5 Installing the BENCHTOP MICROWAVE SOURCE Remote Client ................................................... 11
2.4.6 Troubleshooting the LAN Interconnection ..................................................................................... 12
2.4.7 Shutting Down the BENCHTOP MICROWAVE SOURCE .................................................................. 12
3 USING THE GRAPHICAL USER INTERFACE (GUI) ..................................................................................... 14
3.1 START THE BENCHTOP MICROWAVE SOURCE GUI ..................................................................................... 14
3.2 THE COLTROL TAB ..................................................................................................................................... 14
3.2.1 Simultaneously controlling Multiple Signal Generators from one PC ............................................ 15
3.2.2 Store and Load Instrument States ................................................................................................. 15
3.2.3 Setting Network Configuration ...................................................................................................... 16
3.2.4 Setting the GPIB Address ............................................................................................................... 17
3.3 PERFORM FIRMWARE UPGRADE ..................................................................................................................... 17
3.4 USING TOOLBARS ........................................................................................................................................ 17
3.5 BASIC CW OPERATION (CW TAB) ................................................................................................................... 17
3.6 SWEEPS ..................................................................................................................................................... 18
3.6.1 Frequency Sweep ........................................................................................................................... 18
3.6.2 Power Sweep ................................................................................................................................. 19
3.6.3 List Sweeps .................................................................................................................................... 20
3.7 MODULATION CONTROL ............................................................................................................................... 25
3.7.1 Pulse Modulation........................................................................................................................... 25
3.7.2 Pulse Train Modulation ................................................................................................................. 26
3.7.3 Amplitude Modulation .................................................................................................................. 27
3.7.4 Angle Modulation .......................................................................................................................... 27
3.7.5 Chirps ............................................................................................................................................. 28
3.8 REFERENCE IN AND OUT ................................................................................................................................ 29
3.8.1 Bypass internal 100 MHz reference ............................................................................................... 29
3.8.2 Output Internal Reference ............................................................................................................. 30
3.9 USING THE TRIGGER OPTIONS (TRIGGER TAB) ................................................................................................. 30
3.10 LF OUT CONTROL .................................................................................................................................. 31
3.11 COMBINED MODULATION ........................................................................................................................ 33
4 LOCAL OPERATION VIA FRONT PANEL ................................................................................................... 34
4.1 DISPLAYED PARAMETER FORMATS .................................................................................................................. 35
4.2 CW DISPLAY ............................................................................................................................................... 35
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4.2.1 Main Menu Display ....................................................................................................................... 35
4.2.2 Frequency Sweep Submenu ........................................................................................................... 36
4.2.3 Power Sweep Submenu ................................................................................................................. 37
4.2.4 List Sweep Submenu ...................................................................................................................... 39
4.3 MODULATION SUBMENU .............................................................................................................................. 40
4.3.1 Pulse Modulation Submenu ........................................................................................................... 40
4.3.2 Amplitude Modulation Submenu .................................................................................................. 41
4.3.3 Frequency Modulation Submenu................................................................................................... 41
4.3.4 Phase Modulation Submenu ......................................................................................................... 42
4.4 REFERENCE SUBMENU .................................................................................................................................. 42
4.5 TRIGGER SUBMENU ...................................................................................................................................... 43
4.6 LF OUTPUT SUBMENU ................................................................................................................................ 43
4.7 LAN CONFIGURATION SUBMENU .................................................................................................................... 44
4.8 DISPLAY SETTINGS SUBMENU ......................................................................................................................... 45
4.9 SETTINGS SUBMENU ..................................................................................................................................... 45
4.9.1 Save Settings Submenu ................................................................................................................. 46
4.9.2 Load Settings Submenu ................................................................................................................. 46
4.9.3 Load Defaults Submenu ................................................................................................................. 47
4.10 HELP SUBMENU ...................................................................................................................................... 47
5 REMOTE PROGRAMMING THE BENCHTOP MICROWAVE SOURCE ......................................................... 48
6 BATTERY OPERATION (B3 OPTION) ....................................................................................................... 49
7 EXTENDED POWER RANGE (PE3 OPTIONS) ............................................................................................ 52
8 MAINTENANCE AND WARRANTY INFORMATION .................................................................................. 53
8.1 ADJUSTMENTS AND CALIBRATION ................................................................................................................... 53
8.2 REPAIR ...................................................................................................................................................... 53
8.3 SAFETY ...................................................................................................................................................... 53
8.4 WARRANTY INFORMATION ............................................................................................................................ 53
8.5 EQUIPMENT RETURNS .................................................................................................................................. 54
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Models
Range
Power
Options
Display
BENCHTOP MICROWAVE
9 kHz – 4 GHz
-30 - +13
B3, PE3, GPIB,
Y
MODEL 835-6
9 kHz – 6.1
-30 - +13
B3, PE3, GPIB,
Y
BENCHTOP MICROWAVE
100 kHz – 12
-20 - +10
B3, PE3, GPIB,
Y
MODEL 845
100 kHz – 20.4
-20 - +10
B3, PE3, GPIB,
Y
BENCHTOP MICROWAVE
100 kHz – 26.5
-15 - +20
B3, PE3, GPIB,
Y
MODEL 835-M
9 kHz – 3 GHz
-65 - +13
-
N (opt)
MODEL 845-M
0.65 GHz –
+15 dBm
- N
1 Introduction
This instruction manual is valid for Berkeley Nucleonics model series BENCHTOP MICROWAVE
SOURCE, COMPACT SIGNAL GENERATOR, and COMPACT SYNTHESIZER. Chapter 2 gives you
guidance for a quick and easy setup of your new instrument. Chapter 3 describes the remote
operation via Berkeley Nucleonics graphical user interface (GUI). Chapter 4 describes control via front
panel and applies only to BENCHTOP MICROWAVE SOURCE models.
1.1 What do you get?
Your signal generator kit contains the following items:
• Mainframe
• Universal power adaptor (AC 100 – 240 V) with corr es p ond ing CH, U K, U S, EU plugs
• Ethernet Cable
• Manuals & software CD
It is strongly recommended to use the o rig inal power adaptor (as supplied in this package) to
guarantee save and reliable operation of your instrument.
1.2 General Features and Functions (Model overview)
Berkeley Nucleonics RF & Microwave Signal Generator model overview
range
SOURCE4010
GHz
dBm
dBm
RM
RM, AVIO
SOURCE12G
SOURCE26G
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GHz
GHz
GHz
20.4 GHz
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dBm
dBm
dBm
dBm
RM
RM
RM
BENCHTOP MICROWAVE SOURCE4010,
90 dB
MODEL 845, BENCHTOP MICROWAVE
70 dB
General features include
• Extendable power range (option PE3)
• Modulation capabilities for FM, PM, AM and PULM modulation (model dependant)
• Fast frequency, power and list sweeps
• Light weight, optional internal rechargeable batteries (option B3)
• 3- inch status LCD (BENCHTOP MICROWAVE SOURCE models only)
• Long-term support: Software upgrades (firmware, API, GUI) are available to download from
www.BerkeleyNucleonics.com
continue to use both of these services free of charge for the lifetime of the product.
• Universal LAN VXI-11 and USB 2.0 device and host interface
• 18-24 months calibration cycle
. You can also call our technical specialists for support. You can
1.3 Options
B3: internal rechargeable battery
PE3: mechanical step attenuator for extended power range
MODEL 835-6
SOURCE26G
GPIB: GPIB interface added
AVIO: specific avionics modulation capabilities added
RM: 19’’ rack mounts kit
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1.4 Front Panel Overview (BENCHTOP MICROWAVE SOURCE models only)
The front panel contains a status display, RF output female N-type connector (BENCHTOP
MICROWAVE SOURCE4010, MODEL 835-6) or a female SMA connector (BENCHTOP
MICROWAVE SOURCE12G, MODEL 845, BENCHTOP MICROWAVE SOURCE26G), and a RF
on/off key (
includes status indicators, frequency and amplitude settings, current connectivity status, and error
messages. Five control buttons allow easy menu control.
Figure 1-a). The LCD screen shows information on the current function. Information
Figure 1-a BENCHTOP MICROWAVE SOURCE Front Panel View (Model MODEL 845)
RF On/Off button The ON/OFF key toggles between RF output on and RF output off. The green light
(*) is indicating whether the RF output is enabled (light on) or disabled (light off).
RF 50 Ω connector This female N- type respectively SMA connector provides the output for generator
signals. The impedance is 50 ohm. The reverse power damage level is +30 dBm maximum. The
maximum allowed DC level is +/- 10 V. Please check the data sheets for more details.
Main LCD display The main display shows the following information:
1st line: RF frequency in Hz
nd
line: RF amplitude in dBm
2
rd
line: Frequency reference status (internal, external, lock status)
3
th
line: Remote control status
4
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4
10
11 1 5 6 7 8 9 2 3
1.5 Rear Panel Connections
Figure 2 BENCHTOP MICROWAVE SOURCE Rear Panel View
1 RJ-45 host connector Used for connecting with a controller such as PC or Laptop.
2 USB Device Used for connecting with a controller (PC, laptop).Communication via USB-TMC
protocol.
3 USB Host Used for connecting USB devices such as Memory sticks or USB-TMC power meters.
Check with factory for list of supported devices.
4 Phase MOD IN connector This BNC input connector accepts 0 to 2 V (peak) signal for frequency
and phase modulation. The damage level is 4 Vrms.
5 REF IN connector Female BNC connector accepts a TTL or -5 to +15 dBm sine signal from an
external reference oscillator that is within ±1 ppm of the programmed reference frequency. The
nominal input impedance is 50 ohm.
6 TRIG IN connector Female BNC connector accepts TTL signal from an external trigger source. The
input impedance is 1Mohm.
7 AM / PULSE MOD IN connector This BNC input connector accepts TTL signal for pulse modulation
respectively analogue voltage for AM. The damage level is 5 Vrms.
8 REF OUT connector Female BNC connector is for an output of the internal 10 or 100 MHz
reference frequency which has a nominal output level greater than 0 dBm and an output impedance of
50 ohm.
9 FUNCT OUT connector Female BNC connector is used as a multiple purpose output. It can be
programmed as trigger output, as video output during pulse modulation and as output for the low
frequency function generator.
10 Power switch The power switch disconnects the signal generator from the DC input completely
including the internal high-stability reference. After switching on this switch th e signal gen er ator enter s
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into standby with the OCXO warming up and RF out switched off. The red power LED on the front
panel is turned on.
11 DC IN power receptacle The power receptacle accepts two-pin plug from the external 6 V DC
power adapter.
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2 Getting Started
2.1 System Requirements
The Berkeley Nucleonics graphical user interface requires at least the minimum system requirements
to run one of the supported operating systems.
Operating system Windows™ 2000 SP4, XP SP2, Vista, 7, 8
Remote 10/100/1000M Ethernet or USB 2.0 Port
2.2 Unpacking the Instrument
Remove the instrument materials from the shipping containers. Save the containers for future use.
The standard product package includes:
1 Synthesized Signal Generator
1 Ethernet Cable
1 Universal DC power adapter
1 Software & Manual CD
2.3 Initial Inspection
Inspect the shipping container for damage. If container is damaged, retain it until contents of the
shipment have been verified against the packing list and instruments have been inspected for
mechanical and electrical operation.
2.4 Starting the Instrument
This section describes installation instructions and verification tests.
2.4.1 Applying Power
Place the instrument on the intended workbench and connect the appropriate DC power supply to the
receptacle on the rear of the unit. Make sure you use the included DC power supply. The instruments
typically require 6 V DC at 3A peak. Using other supplies may lead to malfunction and damage of
the Instrument.
Press the line on/off switch on the rear panel. If available, the front panel display will illuminate. The
instrument will initialize and momentarily display the model number, firmware revision and product
serial number. The display will then switch to the factory default display setting, showing preset
frequency (100 MHz) and power (0.0 dBm), phase lock status (of internal reference) and instrument
connectivity status (Ethernet IP or USB identifier).
Note, the instrument booting process may take up to 60 seconds (depending on configuration) to
complete.
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2.4.2 Connecting to LAN
Connect the instrument to your local area network (LAN) using the Ethernet cable. By default the
instrument is configured to accept its dynamic IP number from the DHCP server of your network. If it is
configured properly, your network router will assign a dynamic IP number to the instrument which will
be automatically displayed on the screen. Your instrument is now ready to receive remote commands.
2.4.3 Direct connectivity to host via Ethernet cable (no router)
You can connect to the instrument to your computer with the Ethernet cable without using a local area
network with DHCP server. To work properly, the network controller (NI C) of your com put er must be
set to a fixed IP beginning with 169.254.xxx.xxx (excluding 169.254.1.0 and 169.254.254.255) and
network mask 255.255.0.0 to match the fallback IP that the APPH will assign itself after network
timeout. The APPH will automatically choose an IP address according to ZEROCONF standard.
Therefore, the exact fallback address can’t be predicted.
Connection from a NIC that is configured to use DHCP is also possible. After a preset timeout, the NIC
will assume that no DHCP is available and self-assign a fallback IP that will fall into the range
169.254.xxx.xxx.
Alternatively, you may assign the instrument a fixed IP. Please refer to a later section of this manual to
learn how to do this.
2.4.4 Connecting though USBTMC
Connect the (powered on) instrument to the computer using the USB cab le. If properly connected, the
computer host should automatically recognize your instrument as a USBTMC device.
Note if you want to work with the Berkeley Nucleonics GUI, it must be installed with USB support
selected. Then the GUI will detect all attached devices automatically. Open the GUI and follow the
instructions given in Chapter 4.
Alternatively, a VISA runtime environment (NI or Agilent or comparable) must be installed.
Use VISA Write to send the *IDN? Query and use VISA Read to get the response. The USBTMC
protocol supports service request, triggers and other GPIB specific operations.
2.4.5 Installing the BENCHTOP MICROWAVE SOURCE Remote Client
Berkeley Nucleonics’s graphical user interface provides an intuitive control of the instruments. It runs
under Windows™ operating system with minimum requirements. The DLL is embedded in the GUI
application and requires the Microsoft® .NET™ framework to be installed. To install the GUI on the
computer, insert the Berkeley Nucleonics Software and Manual CD into the CD/DVD drive. If the setup
doesn’t start automatically double click on the setup.exe to run the auto-installer.
The self-extracting setup provides easy installation and de-installation of the software. The setup
program guides you in a few steps though the installation process. In case the NET framework is not
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installed on your current Windows™ operating system, the setup procedure will assist you
automatically to install the required version. For this you will need an active internet connection.
2.4.6 Troubleshooting the LAN Interconnection
Software does not install properly
• Make sure your installation CD is not damaged.
• When Microsoft .NET Framework is not installed make sure that your computer is c onnec te d
to the internet during installation of the Berkeley Nucleonics Software. If no internet connection
is available, install the .NET™ Framework that is available on the installation CD.
Software cannot detect any instrument
• Make sure you have connected both computer and instrument to a common network.
• If a direct connection is used you may require to reset your computer Ethernet controller
(depending on the configuration). Note that in that case detection of the instrument can take
a considerable amount of time if your computer is configured to work with an exter nal DH C P
server. In some cases the detection may even fail completely. Configure your computer
network controller to an appropriate fixed IP instead.
• Make sure that your software firewall enables the GUI to setup a TCP/IP connection via the
LAN. Under Windows XP you can do that like this:
Open Control Panel under Settings in your Start menu. Then go to Windows Firewall. Click on
Exceptions and then add Program. If the GUI is in this list, choose it and click OK otherwise
you have to browse for the path to GUI installat ion dir e ct or y. Finally close all open dialogs wi th
OK. Now your Windows™ Firewall will not block requests from the GUI.
2.4.7 Shutting Down the BENCHTOP MICROWAVE SOURCE
Press the line on/off switch on the rear panel to off.
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3 Using the Graphical User Inter f a c e (GUI )
Berkeley Nucleonics’s graphical user interface provides an intuitive control of the signal generator. It
runs under any Windows™ operating system. Make sure the software is installed correctly and the
computer’s firewall is configured properly. The GUI’s dynamic link library (DLL) uses the Microsoft
.NET framework.
3.1 Start the BENCHTOP MICROWAVE SOURCE GUI
After successful installation of the software double-click the software shortcut that has been created on
your desktop.
After start the GUI will automatically detect existing Berk ele y Nucleon ic s instruments that are
connected to the computer (network) via local area network, USB, or GPIB. In the CONTROL tab (see
Figure 3-a) the detected instruments are listed. Clicking on one of the devices will instantly establish
connection. Clicking on an alternate device will disconnect the old device and reconnect to the new
device. Scan Instruments button will enable automated scanning for new instruments.
Disconnect/Connect button will establish and terminate connection.
3.2 The COLTROL Tab
The CONTROL tab (Figure 3-a) completes the following function
- Scan and establish connection to instrument
- Configure remote interface (LAN, USB, GPIB)
- Save, load and manage instrument memory states
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Figure 3-a CONTROL Tab
3.2.1 Simultaneously controlling Multiple Signal Generators from o n e PC
You can easily control multiple Berkeley Nucleonics instruments from a single computer but you need
to start a separate GUI for every instrument as only one instrument is controlled by the GUI at once.
3.2.2 Store and Load Instrument States
Multiple different memory states are available to store instant instrument settings. By clicking on the
Device Settings Memory button the currently saved memory settings are displayed and can be
loaded or overwritten as shown in
and select if the current instrument settings shall be stored in or loaded from the selected memory
state.
NOTE: Memory 0 is used as default state when the instrument is powered up.
Figure 3-b. To modify or enter a state, click on the appropriate line
The memory states can also be accessed via the front panel menu.
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Figure 3-b Memory Settings Submenu
3.2.3 Setting Network Configuration
If your network does not have a DHCP server or a static IP address is preferred you can set an IP
address, network mask and default route. The address and mask settings are required. The default
route is not strictly necessary but enables network communication between the test set and devices on
a subnet other than that to which it is immediately attached. The network features can be used on the
local area network even if no default route (specified as 0.0.0.0) is configured.
The Network Configuration button allows configuring the LAN settings as shown in
Using a DHCP (dynamic host configuration protocol) server can be enabled or a static IP can be
entered by user. The device name can be modified as desired. The unit serial number and firmware
revision are displayed on the bottom.
Figure 3-c.
Figure 3-c Network Configuration Submenu
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3.2.4 Setting the GPIB Address
If the instrument has the GPIB option installed, the GPIB address can be changed in the GPIB
submenu in the control tab. Valid GPIB address is 1 to 30.
To verify GPIB functionality, use the VISA Assistant availab le with the Ag ilent IO Library or the Getting
Started Wizard available with the National Instrument IO Library. These utility programs enable you to
communicate with the signal generator and verify its operation over GPIB. For information and
instructions on running these programs refer to the Help menu available in each utility.
3.3 Perform Firmware Upgrade
A firmware upgrade of the instrument can be done directly via the GUI. First make sure you are
connected to the right instrument and have the correct firmware binary file (.rar) ready. Then apply
Controller
Berkeley Nucleonics or downloaded from the Berkeley Nucleonics website. The update will take a few
seconds and after completion your instrument will reboot. Reconnect to the instruments after booting
is completed and continue with the updated firm ware. NOTE: Do not disconnect and power off
device during firmware update is in process.
Update Firmware and select the appropriate binary file that you have received from
3.4 Using Toolbars
In the existing GUI Version there are two Toolbars available.
The standard toolbar looks like:
Close the Application
Connect / Disconnect
Save to Memory
Network Configuration
Reset System
Restart Controller
with the following symbol functionality:
3.5 Basic CW Operation (CW tab)
Berkeley Nucleonics signal generators are laboratory instruments designed to generate a synthesized
CW signal with good spectral purity and f ixed or variable amplitude. To set a desired frequency,
relative phase and amplitude, click to the CW tab (
power can be set by clicking on the up and down arrows above and below each digit. The frequency is
settable in steps of 0.001 Hz, the phase is settable in steps of 0.1 degrees and the power in steps of
0.01 dB.
The RF ON/OFF button turns the RF power on and off. The green LED in the RF ON button indicates
that the RF output is enabled. The MOD ON/OFF button allows instant enabling (disabling) of a
previously enabled
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Figure 3-d). The desired frequency, phase and
modulation.
Figure 3-d CW Tab
3.6 Sweeps
Besides the basic CW operation, the instrument supports several sweeping modes. Sweep
parameters can be set in the SWEEP tab (
clicking on the FREQ . SW EEP, POWER SWEEP or LIST SWEEP tab respectively.
3.6.1 Frequency Sweep
To start a frequency sweep,
a) enter start and stop frequency in Hz unit
b) enter the number of points (or points per decade)
c) enter the dwell time in milliseconds (min. dwell time is 50 microseconds)
d) enter the off time in microseconds
e) select the sweep mode as linear or log; additionally click “random” if random sequence is
desired
f) select the repetition mode: enter number of repetitions or choose “infinite”
g) select the ALC mode: on hold or off. Generally ALC on is used. If very short dwell times (1-2
Figure 3-e). Select frequency, power or list sweep by
ms) are needed, the ALC can be set to “hold”. In this way the ALC loop is disabled during the
sweep. The ALC voltages are calibrated before the sweep to maintain high level ac cur acy
during the sweep
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h) press the on/off button
The time resolution is 200 ns. Note that the sum of the dwell time and the off time must be greater or
equal to 1.0 ms. The dwell time must be at least 50 µs. The off time can be also be 0 (no off time).
When “auto” is selected, the off time is automatically adjusted such that during switching transients the
output is disabled and the sum of dwell and off time are at least 1.0 ms.
Under “repetition mode” you can select how many times the sweep should be executed by entering 1
to N times or select infinite. Selecting “Rand” will sweep the frequencies in a random manner until
terminated by user. In all cases the frequency returns to the CW frequency as soon as the sweep is
terminated.
Start and stop the sweep by pressing the ON/OFF button.
The switching transient between frequency steps depends on the step size and if internal bands of the
synthesizer are crossed. Typical switching transients are <10 µs for a <100 MHz step (no band
crossing) and <50 µs for arbitrary steps at output frequencies.
3.6.1.1 Frequency Linear Sweep
This mode sweeps linearly from start to stop frequency in constant steps. Frequency step size is
(f_stop-f_start)/number_of_points.
If start<stop then negative frequency steps are performed.
3.6.1.2 Frequency Log Sweep
This mode sweeps logarithmically from start to stop frequency in a given number of points per decade.
3.6.1.3 Frequency Random Sweep
The output frequency is selected randomly between start and stop frequency. The number of different
output frequencies is determined by the number of points selected by the user.
3.6.2 Power Sweep
To run a power sweep, enter start and stop power in dBm unit, the number of steps, dwell and off time
in milliseconds. When “auto” is selected, the off time is automatically adjusted such that during
switching transients the output is disabled and the sum of dwell and off time are at least 400 µs.
Select if the sweep should run a predefined number of times (enter desired number) or infinite times
(selecting infinite). Select ALC settings. Start and stop the sweep by pressing ON/OFF button.
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Figure 3-e FREQUENCY SWEEP Tab
3.6.3 List Sweeps
List sweeps allow to set frequency, output power, dwell time and off time for each entry individually. To
start a list sweep, the following steps are required:
a) select sweep parameter
b) select indexing
c) upload list file from computer (CSV-file) or load sweep from instrument flash memory or edit
new list
d) select number of repetition
e) select ALC mode: on, hold or off. Generally ALC on is used. If very short dwell times (< 2 ms)
are needed, the ALC can be set to “hold”. This way the ALC loop is disabled during the
sweep. The ALC voltages are calibrated before the sweep to maintain high level ac cur acy
during the sweep
f) start sweep with on/off button
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Figure 3-f POWER SWEEP Tab
Select parameter to sweep: frequency, power or both. If only one parameter is selected to sweep, the
second parameter is set to the first value (line 1 of the CSV file) for the duration of the sweep.
Choose the direction of the sweep: to go up, down or be random. If you select random indexing, the
index is randomly chosen for N times where N is the number of list points.
3.6.3.1 Sweep File Format
The input file must be a 4 column CSV file with the following syntax on each line:
frequency [in Hz] ; power [in dBm] ; dwell time [in µs] ; off time [in µs]
Note the four entries in each line must be separated by a semicolon.
Figure 3-h shows a valid list file with four points displayed in Microsoft Excel. Each line describes
one list point. The first line must contain all for entries, in any other line entries may be omitted. Lists
may contain up to 10’000 lines.
The off time may be set to zero if the output is not to be disabled during transients. The sum of dwell
time and off time must comply with the minimum and maximum values specified in the data sheet of
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the instrument. Transient times depend on the frequency steps and are typically less than 10 µs for a
100 MHz step.
The number of repetitions determines how many times the com plete list will be executed.
List sweeps can be directly loaded, edited and saved from the GUI. Press the List Memory button in
the List Sweep Tab to open the list sweep editor as shown in Figure 3-i.
Figure 3-g LIST SWEEP Tab
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µ
Figure 3-h CSV-file with four points (1st column: frequency in Hz, 2nd: power in dBm, 3rd: dwell
time in
s, 4th: off time in µs).NOTE: values must be separated by semicolon!
3.6.3.2 List Sweep Editor
The list sweep editor consists of a table editor on the right and the save and load functions on the left
Figure 3-i).
(see
To create a new list, just enter the various frequency and power values in line 1 to N. You can also
load an existing list sweep file (in CSV format) from the computer by using the Open list file button
below.
Afte r you have completed the list sweep you can save the list either on your computer (Save list file
button) or load it to the instrument ( Send button). Once loaded to the instrument, the list is the
active list in the memory. To save the active list in the non-v ol ati le m emory of the instrument you enter
a filename and press the ↓Store button.
If you want to locally edit an already stored list, sweep from the instrument, select the respective list
sweep file (or memory) and press the G et butt on.
The list sweep that shall be executed must be loaded into the Device list RAM by using the Send or
↑Load buttons.
Confirm your selection with “OK” to return to the List Sweep Tab and start the sweep with ON/OFF
button.
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Figure 3-i List Editor
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3.7 Modulation Control
The instrument provides various modulation capabilities that can be accessed by the MODULATION
Figure 3-j). The modulation capabilities depend on the particular instrument model and are
Tabs (
enabled by the GUI correspondingly.
3.7.1 Pulse Modulation
Select Mode as “Pulse Modulation”
On the left the internal pulse modulation can be preset and started with the ON/OFF button. For
internal pulse modulation, select pulse width and modulation period in milliseconds. Note that pulse
width resolution and accur a cy is approx. ± 15 ns.
For external modulation change the “Source” to “External Pulse”.
For both, internal and external, the “Inverse Polarity” button allows the instant inversion of the
modulation polarity.
Figure 3-j PULSE Tab
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3.7.2 Pulse Train Modulation
Define pulse train sequences by using the pulse train editor (Figure 3-k).
Select Mode as “Pulse Trains”.
The editor becomes available when mode is set to pulse trains. There are two input options:
Hexadecimal string or select/unselect boxes of the binary representation. The maximal sequence
length is 256 bits or 64 (hexadecimal) chars when using the GUI. Via direct remote programming up to
4096 bits can be programmed.
The pulse width and pulse period can be set in ranges of milliseconds or microseconds and selected
by the button next to the digits (
Figure 3-j).
Figure 3-k Editor for Pulse Trains
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3.7.3 Amplitude Modulation
The internal amplitude modulation (Figure 3-l) can be enabled by pressing the ON/OFF button in the
AM submenu. For internal modulation, the modulation depth and rate can be set. The internal function
generator is used to provide the modulation signal. The shape can be set to sine or square.
Switching between internal and ext erna l am plit ude m odul ation is possible.
Figure 3-l AM Tab
3.7.4 Angle Modulation
The frequency and phase modulation settings can be accessed by selecting respective FM (frequency
modulation) or PM (phase modulation) tabs (
For external angle modulation, enter the desired sensitivity per Volt for either frequency or phase
modulation and press the ON/OFF button to enabl e (disable) the modulation. Connect the modulation
source to the rear BNC input.
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Figure 3-m). AC or DC coupling can be selected.
For internal modulation, the modulation rate and deviation can be set as well as the modulation
waveform (Sine, Ramp, Triangle, Square).
Figure 3-m FM Tab
3.7.5 Chirps
Specify centre frequency and frequency-span for running chirps (see Figure 3-n). For the chirp-time
the units can be set to milliseconds or microseconds by the button next to the digits.
The chirp sweep direction is either up, down or bidirectional (up first or down first).
The repetitions can be set from 1 to infinity. Note: Enable the sweep with the ON/OFF button.
To effectively start the chirp the trigger system must be appropriately set on the trigger tab.
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Figure 3-n CHIRPS Tab
3.8 Reference In and Out
The internal reference of the signal generator can be locked to an external frequency reference that is
provided to the external reference input on the rear panel. To enable phase lock to the external
reference go to the REFERENCE tab (
Click Use ext. reference and enter the frequency of the reference that has been externally applied.
The reference frequency must be specified within the frequency range and accurately set to at least 1
ppm. Note that the reference lock will fail if the frequency of the external reference is not accurately
provided.
The lock status is shown as Locked (green) or Not Locked (red).
3.8.1 Bypass internal 100 MHz reference
Some instruments provide the option to bypass (disable) the internal reference and feed an external
Figure 3-o).
100 MHz reference. To enable that operation mode select “External 100 MHz”.
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3.8.2 Output Internal Reference
The internal reference can be output to one of the rear panel connectors. Enable the output by
selecting the desired output frequency (10 or 100 MHz).
Figure 3-o REFERENCE Tab
3.9 Using the Trigger options (TRIGGER tab)
All instruments support internal and external triggering for frequency, power, list and chirp sweeps. To
set the trigger options go to the TRIGGER tab as shown in
Various trigger sources are available:
a) KEY which is the RF on/off button
b) LAN (“soft trigger”, SCPI via LAN, USB, GPIB)
c) external TRIGGER at the rear panel (TRIG IN, TTL input)
The following trigger parameters can be defined:
a) trigger delay: 50 µs to 10 sec in 1 µs resolution predefined delay after trigger signal arrives.
The trigger delay uncertainty is about ±2 µs.
b) trigger modulo: N=1 to 255: defines every Nth trigger event to be used
c) trigger active edge: positive, negative and both (positive first or negative first)
Figure 3-p.
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d) trigger occurrence: single event or repeated
e) trigger type: single point, complete sweep or gated
Confirm settings and arm trigger by pressing the Apply button.
As soon as a sweep is programmed, the output is disabled while the trigger is expected. Upon arrival
of the trigger, the sweep is executed (after given trigger delay). Any trigger signal arriving during
execution of the sweep will be ignored.
If single sweep has been selected, the sweep will be executed only once as soon as first trigger signal
arrives. As soon as the sweep is completed, the frequency will return to the preset CW frequency.
If repeat sweep is selected, the sweep will be executed every time the trigger signal arrives. After the
sweep is completed, the frequency of the RF output is disabled until next trigger arrives.
With trigger type, the user can select the trigger either to execute only a single point from the sweep
or the complete sweep. When gated is selected, the sweep is only executed while the trigger signal is
high.
Figure 3-p TRIGGER Tab
3.10 LF OUT Control
The BENCHTOP MICROWAVE SOURCE rear panel output FUNCT OUT can be programmed using
the LF OUT tab (see
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Figure 3-q). The FUNCT OUT output can be used as
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• Video output of the internal pulse modulation signal
• Trigger output (see programmer’s manual for further configuration)
• Output of one of the low frequency generators
In the GUI select which output to be used and enable it by pressing the ON/OFF button.
The low frequency generator can output sine wave, triangle or a square wave. The frequency can be
set from 1 Hz to 5 MHz. The amplitude of the sine wave and triangle can be set for the sine wave and
the triangle. If square wave is selected, the output is not affected by the amplitude settings and gives
constant 5 Volts peak-peak amplitude.
The output impedance for sine and triangle wave output is 50 ohms, for square wave, trigger and
pulse modulation video it is high impedance (CMOS and TTL logic compatible).
Figure 3-q LF OUT Tab
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INT / EXT
INT / EXT
INT / EXT
FM/PM
EXTERNAL
YES / YES
YES / YES
YES
AM
EXTERNAL
NO/ NO
YES
PULSE
EXTERNAL
YES
3.11 Combined Modulation
The table below shows what modulation types can be active simultaneously.
All modulations can be combined with frequency and power sweeps. For frequency and phase
modulation, some timing restrictions apply. Check programmer’s manual for further details.
Table 3-i Possible combinations of internal and external modulation and the internal LF
generator output.
INTERNAL
INTERNAL
INTERNAL
LF Generator
CHIRP
Notes:
FM/PM
NO/NO YES/YES YES/YES YES
AM
YES / YES
PULSE
YES / YES
NO/ NO
LF Generator
YES
NO
YES
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↓ ↑ → ←
→
4 Local Operation via Front Panel
Most of the signal generator models offer direct front panel control.
A rotary knob and five keys (MENU, and four arrow keys) allow full control over the instrument.
4-a shows the front panel of the MODEL 845.
Figure
Figure 4-a MODEL 845 Front Panel
RF On/Off button The ON/OFF key toggles between RF output on and RF output off. The green light
is indicating whether the RF output is enabled (light on) or not.
RF 50Ω connector This female N- type connector provides the output for RF signals. The impedance
is 50 ohm. The damage level is +30 dBm maximum. The maximum allowed DC level is +/- 10 V.
Rotary knob is used to switch between menus and to continuously change values at cursor position.
Menu Key This is a multifunction key. The key is used to enter and exit menus. Press once to return
to CW menu, press multiple times to toggle between the currently selected submenu and the CW
menu.
keys are also used to enter (
Keys These keys are used to move cursor within the screen menus. Within menus, the → ←
) and exit (←) in next menu hierarchy.
LAN LED illuminates as soon a remote connection is active.
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→ ←
Output Frequency
Power LED illuminates when system is powered up.
4.1 Displayed Parameter Formats
The following sections describe how to control the instrument via the front panel control by invoking
various menu functions.
4.2 CW Display
The Main or CW Display is shown after the instrument has successfully booted and is ready. The four
line display has the following format:
Output Power
Ref. Frequency
Remote Control
The currently active display position is shown by the cursor (underline symbol). The cursor does not
move beyond the field of the currently selected parameter. Rotate the front panel knob to modify the
value. Clockwise rotation increases the parameter and counter-clockwise rotation decreases the
parameter. The parameter value will continue to increase or decrease by the amount of the selected
resolution until it reaches the maximum or minimum limit of the parameter.
Use the up and down keys (↓ ↑ ) on the front panel to switch between frequency and power. Use the
left and right arrow keys (
positioning the cursor at the appropriate digit and then turning the front panel rotary knob.
) to select the active digit. The resolution step size is selected by
4.2.1 Main Menu Display
The Main Menu Display is invoked my pressing the menu key. The main menu contains eleven
submenus as shown below.
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→ ←
↓ ↑
Figure 21 Overview of the submenus available on the display.
Use the up and down arrow keys (↓ ↑ ) or the rotary knob on the front panel to scroll the main menu.
The arrow on the left displays the selected position. To enter a submenu, move the arrow (displayed at
the left of the menu points) to the desired menu position and press the menu key.
4.2.2 Frequency Sweep Submenu
After accessing the Frequency Sweep menu, first of three displays allows to enter the start and stop
frequency by using the
decrease their values. Use the
sweep parameters. On the second display the number of points and the on and off time can be
entered. On the third screen select the sweep mode between LINear , LOG ar ithmic and RANDom.
Also select the repetition mode between INF i nit e and 1 (single repetition).
Start the sweep by pressing the RF On/Off button. The submenus can always been exited (without
starting the sweep) by pressing the menu ke y.
keys to select the digits and using the rotary knob to increase and
arrow to move between the several displays that contain settable
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→ ←
↓ ↑
Number of Points per Sweep
On (dwell) time
Off time
Sweep Mode
Figure 4-b Displays shown for the frequency sweep configuration
4.2.3 Power Sweep Submenu
After accessing the Power Sweep menu the first of total three displays allow to enter start and stop
power by using the
keys to select the digits and using the rotary knob to increase and decrease
Repetition
their values. Use the
parameters. On the second display, the number of points and the on and off time can be entered. On
the third display, select the repetition mode between INFinite, and 1 (single repetition).
Start the sweep by pressing the RF On/Off button. The submenu can always been exited (without
starting the sweep) by pressing the menu ke y.
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arrow to move between the several displays that contain settable sweep
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Number of Points per Sweep
Figure 4-c Displays shown for the power sweep configuration
On (dwell) time
Off time
Repetition
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→ ←
↓ ↑
4.2.4 List Sweep Submenu
When entering the List Sweep submenu, a list of stored list sweeps is displayed.
After accessing the List Sweep submenu the first of total two displays allow to enter start and stop
power by using the
their values. Use the
parameters. On the first display the number of repetitions of the list can be entered and the ALC can
be set on or off.
On the second display a particular list can be selected from the flash memory of the device.
Start the sweep by pressing the RF On/Off button. The submenu can always been exited (without
starting the sweep) by pressing the menu key.
keys to select the digits and using the rotary knob to increase and decrease
arrow to move between the several displays that contain settable sweep
Sweep Freq
Sweep Power
Repetition
ALC on/off/hold
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Figure 4-d Displays shown for the list sweep configuration
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→ ←
Important note: All sweeps must be started with the RF on/off button on (green light
illuminated) otherwise no signal will be output during the sweep.
4.3 Modulation Submenu
After accessing the Modulation menu, use the ↓ ↑ arrow keys to select the desired submenu entry.
Press the menu key to enter the selected submenu. Choose EXIT to return to the main menu.
Pulse Modulation
Amplitude Modulation
Frequency Modulation
Phase Modulation
Figure 4-e Modulation Submenu
4.3.1 Pulse Modulation Submenu
In the Pulse Mod submenu the pulse modulation can be accessed. Use the ↓ ↑ arrow keys to move
the cursor to the parameter that you want to change. Use the arrows
modify the parameters.
On line 1 select between INT (internal pulse generator) and EXT (external input).
If internal modulation (INT) is selected, go to line 2 to change pulse width to desired value and go to
line 3 to change pulse modulation frequency.
Enable modulation by pressing the RF On/Off button.
Exit the submenu by pressing the menu ke y.
and rotary knob to
Figure 4-f Pulse Modulation Submenu
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4.3.2 Amplitude Modulation Submenu
In the Amplitude Mod submenu the internal amplitude modulation can be accessed. Use the rotary
knob to set the modulation rate between 1 Hz and 10 kHz.
Enable modulation by pressing the RF On/Off button.
Exit the submenu by pressing the menu ke y.
Figure 4-g Amplitude Modulation Submenu
4.3.3 Frequency Modulation Submenu
In the frequency modulation submenu the internal and external frequency modulation can be
accessed. Use cursor keys to change between internal and external modulation source and change
modulation parameters such as modulation rate, depth or sensitivity. Enable modulation by pressing
the RF On/Off button.
Exit the submenu by pressing the menu ke y.
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Figure 4-h Frequency Modulation Submenu
4.3.4 Phase Modulation Submenu
In the phase modulation submenu the internal and external phase modulation can be accessed. Use
cursor keys to change between internal and external modulation source and change modulation
parameters. Enable modulation by pressing the RF On/Off button.
Exit the submenu by pressing the menu ke y.
Figure 4-i Phase Modulation Submenu
4.4 Reference Submenu
After accessing the Reference menu, use the ↓ ↑ arrow keys to move the cursor between the ON/OFF
entry and the reference frequency entry. Use the rotary knob to toggle between ON and OFF or to
change reference frequenc y to the desired va lue, resp ec tiv ely. The display shows up as following.
Reference ON/OFF
Ref. Frequency
Figure 4-j Reference Submenu
Confirm the setting by exiting the menu (pressing the menu key).
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Trigger Source
Trigger Slope
4.5 Trigger Submenu
After accessing the Trigger menu, use the ↓ ↑ → ← arrow keys to move cursor between the various
menu entries. Use the rotary knob to toggle the selected entry value or to change selected digit. The
display shows up as following.
Continuous
Retrigger (on/off/immediate)
Trigger delay
Figure 4-k Trigger Submenu
Select SOURce: IMMediate, EXTernal, BUS (SCPI command), KEY (RF on/off button)
Select SLOPe: POSitive, NEGative
Select CONTinuous: ON, OFF (ON means that the trigger is re-armed after each trigger occurrence)
Select RETRigger: OFF, ON, IMMediate (OFF means that any trigger event during execution of list is
ignored)
Enter DELAY: trigger delay in microseconds.
Press the RF On/Off button to arm the trigger. Exit the menu by pressing the menu key.
4.6 LF OUTPUT Submenu
In the LF OUTPUT Submenu the FUNCT OUT output can be configured at the rear panel of
the instrument.
Press the RF On/Off button to turn the output on and off. Exit the menu by pressing the
menu key.
On the first screen the source for the FUNCT OUT can be selected. Choose LFG for the low
frequency generator, TRIG to enable the instrument trigger output and PULM to enable the
pulse video output. If LFG is selected, use the ↓ arrow to proceed to the second display.
Select waveform between sine, triangle, or square. Then enter the desired output frequency
and voltage amplitude.
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Figure 4-l Displays shown in the LF OUTPUT Submenu
4.7 LAN Configuration Submenu
After accessing the LAN Configuration menu, use the ↓ ↑ arrow keys to move cursor between IP
address and sub mask address. Use the rotary knob to change selected digit. The display shows up
as following.
Figure 4-m LAN Configuration Submenu (display 1)
Once you have done changes as required, press the menu key to continue the configuration to the
second display. The display shows up as shown below:
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→
Figure 4-n LAN Configuration Submenu (display 2)
Use keys to change gateway and use the rotary knob either enable (X) or disable ( ) DHCP. Press
the RF key to save the configuration (don’t if you want to discard your changes). Press the menu key
to exit the LAN submenu.
4.8 Display Settings Submenu
After accessing the Display Configuration menu, use the rotary knob to change the display contrast
as required. Press the menu key to save and exit the Display Settings submenu.
Figure 4-o Display settings Submenu
4.9 Settings Submenu
After accessing the Default Configuration menu, use the ↓ ↑ to select to the desired settings submenu
and confirm by menu ke y
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.
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←
←
Figure 4-p Default Settings Submenu
4.9.1 Save Settings Submenu
After accessing the L oad S etti ngs menu, use the rotary knob to get to the memory state you want to
save. Press RF ON/OFF key to save your settings. Use
key to return to CW.
Figure 4-q Save Startup Settings
to return to previous menu or press menu
4.9.2 Load Settings Submenu
After accessing the L oad S etti ngs menu, use the rotary knob to get to the memory state you want to
load. Press RF ON/OFF key to load. Use
to return to previous menu or press menu key to return to
CW.
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Figure 4-r Load Startup Settings
4.9.3 Load Defaults Submenu
Press RF ON/OFF key button to load. Use ← to return to previous menu or press menu key to return
to CW.
Figure 4-s Restore Startup Settings
4.10 Help Submenu
This submenu provides basic information about the front panel menu control. Exit this menu with ← to
return to previous menu or press menu key to return to CW.
Figure 4-t Help Submenu
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5 Remote Programming the BENCHTOP MICROWAVE SOURCE
The signal generator can be remotely programmed. Please refer to the Programmer’s Manual for
details.
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Berkeley Nucleonics Corporation 2955 Kerner Blvd., San Rafael, CA 94901
External power
Normal operation
Battery operation - until
Charging – when fully charged
6 Battery Operation (B3 Option)
If your instrument is equipped with an internal rechargeable battery (B3 option) it can be operated
without the external power supply. Fully charged battery is good for up to three hours of operation at
full RF output power. The same external power adaptor (6 V @ 3 A) is used for the battery version as
for the standard model for both normal operation and charging of the battery.
There are four operating modes that are also summarized in Table 2 below:
normal operation– the external power supply is connected to the instrument and the device is turned
ON (with the power switch on the rear panel turned ON). In this mode the instrument can be used as if
no battery was present. The internal battery is not used and will NOT be charged.
charging – the external power supply is connected to the instrument and the device is turned OFF
(with the power switch on the rear panel turned OFF). In this mode the instrument is charging the
internal battery. Once the battery is fully charged, the instrument goes into standby mode. Time
required to complete charging is approx. four hours.
standby – the internal battery is fully charged and the instrument is turned OFF.
battery operation – the external power supply is disconnected and the device is turned ON. The
internal battery is supplying the power unt il it is exhaus ted.
Table 2: Operating modes of an instrument equipped with internal batter y
adaptor
supplying power
Power Switch
ON
OFF
standby (2)
Notes:
(1) The instrument will switch off automatically when the battery is discharged. It is recommended that
the power switch is turned to the OFF position when the battery is fully discharged.
(no charging)
discharged (1)
Completely powered off
disconnected
(2) Termination of charging is automatic. The unit will then enter standby mode. The power adaptor
can be left connected for any length of time.
During operation the appro x imate remaining battery capacity is indicat ed b y the batter y symbol visi bl e
in the upper right corner of the display (see
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Figure 6-a)
Berkeley Nucleonics Corporation 2955 Kerner Blvd., San Rafael, CA 94901
Figure 6-a CW Display with Battery Symbol
Hints for maximizing the battery running time:
1. Fully charge the unit before you use it. Toggle the power switch to ON and then OFF again
while the instrument is powered by the external power adaptor. This will initiate a new charge
cycle.
2. Charging time of a completely discharged battery can be up to 6 hours. IMPORTANT: The
battery will only be charged when the instrument power switch is in the OFF position.
3. Batteries should always be charged at room temperature. Charging the instrument at very low
or at elevated temperatures may result in early termination of the charging process for
example the battery is not fully charged. For safety reasons the charging does not start when
the internal temperature of the instrument is above 50 °C.
4. Check the battery indicator in the upper right corner of the display. It should indicate full
charge when running on battery power after charging (4 segments).
5. Power consumption of the instrument is reduced when the RF power is switched off thereby
increasing overall battery run time.
6. Battery run time is maximal for ambient temperature between 15 and 25 °C. Self-discharge of
the battery is much faster at temperatures above 30 °C.
7. Avoid storing the instrument in very hot places such as behind the windshield of a car parked
in the sun.
Hints for maximizing battery life expectancy:
1. The battery will reach its best performance after the first few charge-discharge cycles.
2. Always use the external power adaptor supplied with the instrument for normal operation and
charging. This will make sure that the charging circuits work as specified.
3. Fully charge the instrument after running it from the battery for an extended period of time.
4. If an instrument with internal battery will be stored for a long period of time, fully charge it
before storage, then remove the power adaptor and make sure that the power switch is in the
OFF position. After storage, first charge the unit for 4-6 hours.
Phone: 415-453-9955, Fax: 415-453-9956, Email: info@berkeleynucleonics.com, Web: www.berkeleynucleoni cs. com
Berkeley Nucleonics Corporation 2955 Kerner Blvd., San Rafael, CA 94901
To replace the battery at the end of its lifetime, please contact Berkeley Nucleonics or one of its
distributors.
NOTE:
♦ Before using the instrument in battery mode for the first time, the battery must be fully
charged.
♦ Batteries must be disposed off according to the local environmental regulations.
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Berkeley Nucleonics Corporation 2955 Kerner Blvd., San Rafael, CA 94901
7 Extended Power Range (PE3 O pti ons)
Some instrument models are available with option PE3 that extends the power range towards lower
power levels.
With these options PE3 installed, a mechanical step attenuator module is added. For the guaranteed
minimum power level, please consult the respective datasheet.
In sweeps where the mechanical attenuator is switched, the minimum dwell time increases to 20 ms.
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Berkeley Nucleonics Corporation 2955 Kerner Blvd., San Rafael, CA 94901
8 Maintenance and Warra nty Information
8.1 Adjustments and Calibration
To maintain optimum measurement performance, the instrum ent should be ca libr ated ev er y 24
months. It is recommended that the instruments be returned to Berkeley Nucleonic s or to an
authorized calibration facility. For more information please contact our Customer Service Department
as indicated on www.BerkeleyNucleonics.com.
8.2 Repair
The signal generator contains no user-serviceable parts. Repair or calibration of the signal generator
requires specialised test equipment and must be performed by Berkeley Nucleonics or its authorized
repair specialists.
8.3 Safety
FCC notice
This equipment has been tested and found to comply with the limits for a Class A device, pursuant to
Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference when the equipment is operated in a commercial environment. This equipment generates,
uses, and can radiate radio frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio communications.
Operation of this equipment in a residential area may cause harmful interference in which case the
user will be required to correct the interference at his or her expense.
notice
The instrument meets the intent of the EMC directive 89/336/EEC and have been designed to
EN61326 Class A Emissions and Immunity standard.
The instrument also meets the intent of the Low Voltage Directive and has been designed to meet
the IEC 61010-1:2001 (safety requirements for electrical equipment, control, and laboratory use)
standard.
8.4 Warranty Information
All Berkeley Nucleonics instruments are warranted against defects in material and workmanship for a
period of two years from the date of shipment. Berk eley Nuc leo nics will, at its option, repair or replace
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Berkeley Nucleonics Corporation 2955 Kerner Blvd., San Rafael, CA 94901
products that prove to be defective during the warranty period, provided they are returned to Berkeley
Nucleonics and provided the preventative maintenance procedures are followed. Repairs necessitated
by misuse of the product are not covered by this warranty. No other warranties are expressed or
implied, including but not lim ited to implied warranties of merchantability and fitness for a particular
purpose. Berkeley Nucleonics is not liable for consequential damages.
The warranty on the internal rechargeable batteries (option B3) is one year from the date of shipment.
Battery replacement is available through Berkeley Nucleonics and its distributors.
8.5 Equipment Returns
For instruments requiring service, either in or out of warranty, contact your local distributor or Berkeley
Nucleonics Customer Service Department at the address given below for pricing and instructions
before returning your instrument.
When you call, be sure to have the following information available:
• Model number.
• Serial number.
• Full description of the failure condition.
Note: Model and serial number can be found on the rear of the instrument, next to the power plug.
You will get a Return Merchandise Authorization (RMA) number from Berkeley Nuc leo nics, please put
it on the outside of the package.
Instruments that are eligible for in-warranty repair will be returned prepaid to the customer. For all
other situations the customer is responsible for all shipping charges. An evaluation fee may be
charged for processing units that are found to have no functional or performance defects.
For out of warranty instruments, Berkeley Nucleonics will provide an estimate for the cost of repair.
Customer approval of the charges will be required before repairs can be made. For units deemed to
be beyond repair, or in situations where the customer declines to authorize repair, an evaluation
charge may be assessed by Berkeley Nucleonics.
Phone: 415-453-9955, Fax: 415-453-9956, Email: info@berkeleynucleonics.com, Web: www.berkeleynucleoni cs. com
Berkeley Nucleonics Corporation 2955 Kerner Blvd., San Rafael, CA 94901
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