Model: 4052, 4053, 4054, 4055 Function/Arbitrary Waveform Generator USER MANUAL
Safety Summary The following safety precautions apply to both operating and maintenance personnel and must be observed during all phases of operation, service, and repair of this instrument. Before applying power, follow the installation instructions and become familiar with the operating instructions for this instrument. If this device is damaged or something is missing, contact the place of purchase immediately.
WARNING: Do not alter the ground connection. Without the protective ground connection, all accessible conductive parts (including control knobs) can render an electric shock. The power jack and mating plug of the power cable meet IEC safety standards. WARNING: To avoid electrical shock hazard, disconnect power cord before removing covers. Refer servicing to qualified personnel. CAUTION: Before connecting the line cord to the AC mains, check the rear panel AC line voltage indicator.
Compliance Statements Disposal of Old Electrical & Electronic Equipment (Applicable in the European Union and other European countries with separate collection systems) This product is subject to Directive 2002/96/EC of the European Parliament and the Council of the European Union on waste electrical and electronic equipment (WEEE) , and in jurisdictions adopting that Directive, is marked as being put on the market after August 13, 2005, and should not be disposed of as unsorted municipal waste.
CE Declaration of Conformity The power supply meets the requirements of 2006/95/EC Low Voltage Directive and 2004/108/EC Electromagnetic Compatibility Directive with the following standards.
Safety Symbols Refer to the user manual for warning information to avoid hazard or personal injury and prevent damage to instrument. Chassis (earth ground) symbol. On (Power). This is the In position of the power switch when instrument is ON. Off (Power). This is the Out position of the power switch when instrument is OFF. On (Supply). This is the AC mains connect/disconnect switch at the back of the instrument. Off (Supply). This is the AC mains connect/disconnect switch at the back of the instrument.
Table of Contents 1 General Information ................................................................................ 9 1.1 Product Overview ........................................................................................................ 9 1.2 Package Contents ........................................................................................................ 9 1.3 Front Panel Overview ................................................................................................
DSB-AM ............................................................................................................................ 35 ASK (Amplitude Shift Keying) ........................................................................................... 37 FM Modulation ................................................................................................................ 38 FSK (Frequency Shift Keying) ............................................................................................
1 General Information 1.1 Product Overview The B&K Precision 4050 series are dual channel function / arbitrary waveform generators, capable of generating up to 50 MHz sine wave (model 4055). They have an informative easyto-read color display, user-friendly controls and a numeric keypad which allows users to easily configure waveform properties. In addition, they feature non-volatile built-in memory to create, store, and recall arbitrary waveforms up to 16,000 points with 14-bit vertical resolution.
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1.5 Display Overview 5 1 3 4 2 Display Description 1 Waveform information display 2 Waveform parameters display 3 Menu options 4 Output impedance indicator 5 Selected channel indicator tab 2 Getting Started Before connecting and powering up the instrument, please review and go through the instructions in this chapter. 2.
Before connecting to an AC outlet or external power source, be sure that the power switch is in the OFF position and verify that the AC power cord, including the extension line, is compatible with the rated voltage/current and that there is sufficient circuit capacity for the power supply. Once verified, connect the cable firmly. WARNING: The included AC power cord is safety certified for this instrument operating in rated range.
2.3 Preliminary Check Complete the following steps to verify that the generator is ready for use. 1. 2. 3. Verify AC Input Voltage Verify and check to make sure proper AC voltages are available to power the instrument. The AC voltage range must meet the acceptable specification as explained in section 2.1. Connect Power Connect AC power cord to the AC receptacle in the rear panel and press the power switch to the ON position to turn ON the instrument.
KeyTest LEDTest Press 7 to toggle through red, green, and blue colors. This test checks for dead pixels and color consistencies of the TFT LCD display. Press 8 to exit the test. Select this option to do a key test. The screen will display a silhouette of buttons that represent the front panel buttons. Press any of the front panel buttons and its corresponding button in the silhouette will turn green. This tests the key press response.
4. Self Adjust This option runs an internal self adjustment procedure that will check and adjust the instrument to specification. Use this option only if the instrument is suspected to be out of calibration. Press Utility, select 1/2 from the menu to enter the second menu page, and select Test/Cal option. Then, select SelfAdjust option. The instrument will run the procedure internally, and a progress bar will be displayed in the waveform information area.
2. 3. 4. 5. 6. 7. Output Impedance: Hi-Z Connect the BNC output of CH1 (yellow) into an oscilloscope. Press the Output button on top of CH1 output BNC to turn on the output and observe a sine wave with the parameters above. Press the Freq or Period option in the menu and use the rotary knob or the numeric keypad to change frequency. Observe the changes on the oscilloscope display. Press the Ampl option in the menu and use the rotary knob or the numeric keypad to change the amplitude.
Phase/EqPhase Configures the phase or set equal phase relative to the other channel. Freq/Period Ampl/HLevel Offset/LLevel Phase/EqPhase Configures the frequency or period of the waveform. Configures the amplitude or the high level of the waveform. Configures the DC offset or the low level of the waveform. Configures the phase or set equal phase relative to the other channel. Configures the duty cycle of the waveform.
SwpTime StopFreq/FrqSp an StartFreq/MidF req Source Trig Out/Edge Linear/Log Direction Trig Configures the sweep time for sweep output. Configures the sweep stop frequency or the frequency span of the sweep output. Configures the sweep start frequency or the center frequency. Selects the sweep source. Internal source: Selects to output a trigger signal at the start of a sweep operation. External source: Selects to use rising or falling edge from an external trigger for sweep operation.
Help 3.2 Selecting a Channel The 4050 series function/arbitrary waveform generators have dual channel outputs. They can be operated independently or in sync with each other. To select between channel 1 and 2 and view/change their parameters, toggle the CH1/2 key. When Channel 1 is selected, the display will look like below: When Channel 2 is selected, the display will look like below: 3.
Waveforms Sine Square Ramp Pulse Noise Arbitrary Keys Sine Square Ramp Pulse Noise Arb After the waveform selection, menu options relevant for that waveform shape will be shown on the right side of the display. Below illustrates the screenshots shown when each of the waveform types is selected.
Configure Frequency Note: This section does not apply for noise waveform. Follow the steps below to configure the frequency or period of the output. The adjustable frequency range is different for each model and for each type of waveforms. See the specification section for the adjustable ranges. 1. After selecting the waveform shape, there will be a Freq/Period menu option. Press the corresponding menu function key to toggle between selecting frequency or the period to adjust. 2.
After entering the numeric value, use the menu function keys to select the unit to apply for the amplitude setting. Available units are: Vpp, mVpp, Vrm, mVrm, dbm. Vrm is for Vrms and mVrm is for mVrms. Note: Only using the numeric keypad will allow for changing the units from V to Vrms, mVrms, or dbm. User Defined High and Low Level The user has the option to adjust the high and low level of the waveform. To do this, toggle the menu function key to select HLevel for high level or LLevel for low level.
Configure DC Offset Note: This section does not apply for noise waveform. Follow the steps below to configure the DC offset of the output. 1. From the menu, select Offset. 2. The cursor position will now highlight the first digit of the offset parameter display. 3. Use the rotary knob or the numeric keypad to change the offset. If numeric keypad is used, the below screen will display: After entering the numeric value, use the menu function keys to select the unit to apply for the offset setting.
After entering the numeric value, use the menu function keys to select the degree (°) unit to apply for the phase setting. Equal Phase The unit can set both channel 1 and channel 2 to be in phase with a push of one button. From the menu, simply select EqPhase and both channels will be in-phase with respect to each other. Configure Duty Cycle and Symmetry Note: This section does not apply for pulse and noise waveforms. Duty Cycle Note: For square waveform only.
4. Use the rotary knob or the numeric keypad to change the duty cycle. If numeric keypad is used, the below screen will display: After entering the numeric value, use the menu function keys to select the percent (%) unit to apply for the duty cycle setting. Note: The adjustable duty cycle range varies depending on the frequency of the waveform. Some frequencies do not allow change of the duty cycle and is fixed at 50%. Symmetry Note: For ramp/triangle waveform only.
4. Use the rotary knob or the numeric keypad to change the symmetry. If numeric keypad is used, the below screen will display: After entering the numeric value, use the menu function keys to select the percent (%) unit to apply for the symmetry setting. Configure Pulse Waveform Note: This section applies to pulse waveform only. Pulse Width and Pulse Duty Cycle The pulse width and duty cycle parameters are related and both control the length of the high level of the pulse.
Follow the steps below to configure the pulse width or duty cycle. 1. Set the instrument for pulse output by pressing the Pulse button. 2. From the menu, select PulWidth for pulse width adjustment or Duty for duty cycle adjustment. 3. The cursor position will now highlight the first digit of the width or duty parameter display. 4. Use the rotary knob or the numeric keypad to change the width or the duty.
Configure Noise Waveform Note: This section applies to noise waveforms only. Standard Deviation and Mean There are two parameters that can be adjusted of the noise waveform: Standard deviation, mean. Follow the steps below to configure these parameters. 1. Set the instrument for noise output by pressing the Noise button. 2. From the menu, select Stdev for the standard deviation adjustment or Mean for the mean adjustment. 3.
4. Use the rotary knob or the numeric keypad to change the two parameters. Both parameters can be specified in V or mV units. Configure Arbitrary Waveform There are two ways to generate arbitrary waveforms. Users can output an arbitrary waveform selected from the built-in selection of pre-defined arbitrary waveforms, or create and output a user defined waveform by specifying point by point arbitrary data. This section will explain how to do both.
UpRamp Upward ramp DnRamp Downward ramp ExpRise LogRise Root3 X^3 Gaussian Haversine Gauspuls Tripuls Exponential rise Logarithmic rise 3 Root three ( √𝑥 ) function X3 function Gaussian function Haversine function Gaussian modulated sinusoidal pulse Triangle pulse Quake TwoTone Earthquake Two tone signal Math Waveforms Math waveforms consist of: ExpFall Exponential fall LogFall Logarithmic fall Sqrt Square root function X^2 X2 function Sinc Sinc function Dlorentz D-lorentz function Lorentz Lorentz
Follow the steps below to browse and select a predefined arbitrary waveform. 1. Press the Arb button to enter the arbitrary waveform function menu. 2. Select 1/2 from the menu to go to the second page, then select Load Wform. 3. Select Built-In and there will be a table on the waveform display area and four categories to select from the menu. Select Common to browse the common waveforms. Select Math to browse the math waveforms. Select Project to browse the special (project) waveforms. Select Winfun\Triangl
To create an arbitrary waveform, users must use the USB interface in the rear panel for PC connectivity to the EasyWave software, which can be downloaded at www.bkprecision.com . Note: EasyWave software supports Windows XP/Vista/7 (32 bit and 64 bit) only. EasyWave software will allow users to easily create a custom arbitrary waveform and load it into the internal memory. To select and output a saved arbitrary waveform from internal memory, follow the steps below. 1.
3.4 Configure Modulation The modulation functions can be accessed by pressing the Mod button from the front panel. The supported types of modulation are: AM, DSB-AM, ASK, FM, FSK, PM. Note: Pulse, Noise, and DC waveforms cannot be modulated. AM Modulation Follow the steps below to setup AM modulation output. 1. Configure your waveform with the desired frequency and amplitude, then press the Mod button. Under Type, select AM. 2.
5. Select Shape to choose the shape of the modulating waveform. Options are: Sine, Square, Triangle, UpRamp, DnRamp, Noise, Arb. UpRamp = Upward ramp waveform DnRamp = Downward ramp waveform Arb = This will be the waveform that is currently loaded from within the arb function menu. To change, follow the instructions in the previous section. 6. Select Source and choose between Internal or External.
3. To adjust DSB frequency, select DSB Freq option from the menu. DSB-AM frequency parameter will be highlighted by the cursor on the first digit. Use the rotary knob or the numeric keypad to enter the DSB modulating frequency. DSB Freq adjustable range: 2 mHz – 20 kHz Note: Adjustable range is dependent on the carrier frequency. 4. Select Shape to choose the shape of the modulating waveform. Options are: Sine, Square, Triangle, UpRamp, DnRamp, Noise, Arb.
WARNING: Do not connect more than ± 6 V into the Modulation In terminal. This will damage the instrument and void its warranty. ASK (Amplitude Shift Keying) Follow the steps below to setup ASK modulation output. 1. Configure your waveform with the desired frequency and amplitude, then press the Mod button. Under Type, select ASK. 2. There are two parameters that can be adjusted: Key Freq and Source. 3. To adjust ASK frequency, select Key Freq option from the menu.
FM Modulation Follow the steps below to setup FM modulation output. 1. Configure your waveform with the desired frequency and amplitude, then press the Mod button. Under Type, select FM. 2. There are four parameters that can be adjusted: FM Freq, FM Dev, Shape, and Source. 3. To adjust FM frequency, select FM Freq option from the menu. FM frequency parameter will be highlighted by the cursor on the first digit. Use the rotary knob or the numeric keypad to enter the modulating frequency.
Arb = This will be the waveform that is currently loaded from within the arb function menu. To change, follow the instructions in the previous section. 6. Select Source and choose between Internal or External. Internal – The modulating source will be generated internally using the FM Freq, FM Dev, and Shape as defined in the previous steps. External – Use external modulating source. Users can connect an external signal into the rear BNC terminal labeled Modulation In as the modulating source.
WARNING: Do not connect more than ± 6 V into the rear terminal. This will damage the instrument and void its warranty. PM Modulation Follow the steps below to setup phase modulation output. 1. Configure your waveform with the desired frequency and amplitude, then press the Mod button. Under Type, select PM. 2. There are four parameters that can be adjusted: PM Freq, Phase Dev, Shape, and Source. 3. To adjust PM frequency, select PM Freq option from the menu.
PM Deviation adjustable range: 0 ° – 360 ° 5. Select Shape to choose the shape of the modulating waveform. Options are: Sine, Square, Triangle, UpRamp, DnRamp, Noise, Arb. UpRamp = Upward ramp waveform DnRamp = Downward ramp waveform Arb = This will be the waveform that is currently loaded from within the arb function menu. To change, follow the instructions in the previous section. 6. Select Source and choose between Internal or External.
3. To adjust PWM frequency, select PWM Freq option from the menu. PWM frequency parameter will be highlighted by the cursor on the first digit. Use the rotary knob or the numeric keypad to enter the modulating frequency. PWM Freq adjustable range: 2 mHz – 20 kHz Note: Adjustable range is dependent on the carrier frequency. 4. Select Width Dev to adjust the pulse width deviation. Use the rotary knob or the numeric keypad to enter the frequency.
Internal – The modulating source will be generated internally using the PWM Freq, Width Dev, and Shape as defined in the previous steps. External – Use external modulating source. Users can connect an external signal into the rear BNC terminal labeled Modulation In as the modulating source. PWM Freq and Shape options will not be available. WARNING: Do not connect more than ± 6 V into the rear terminal. This will damage the instrument and void its warranty. 3.
5. 6. 7. 8. Stop Frequency is the frequency to which the sweep ends. To set the frequency span, select FrqSpan from the menu and use the rotary knob or the numeric keypad to enter the frequency span. Frequency Span provides added control to the direction of the sweep. To set the start frequency, select StartFreq from the menu and use the rotary knob or the numeric keypad to enter the start frequency in Hz. Start Frequency is the frequency to which the sweep begins.
10. Use the function key to toggle selection between Linear or Logarithmic sweep. You can see which type is selected from the waveform display area. Linear Sweep Logarithmic Sweep 11. The direction of the sweep can be changed by toggling the function key corresponding to the Direction option. Linear Down Direction Logarithmic Down Direction The up arrow means the sweep will be in the normal direction (sweep up). The down arrow means the sweep will be in the reverse direction (sweep down).
3.6 Configure Burst Note: Burst function is available for all waveforms, with the limitation on noise waveform in which only gated burst function is supported. Sweep function cannot operate when in burst mode. Gated burst operation is for use with an internal or external source only. Follow the steps below to setup a burst output from the generator. 1. Configure your waveform with the desired frequency and amplitude, then press the Burst button. 2.
6. Select Source and choose between Internal, External, or Manual. Internal – Internal trigger source. Burst will be controlled by the specified burst period. External – External trigger source. Users can connect an external signal into the rear BNC terminal labeled ExtTrig/Gate/FSK/Burst to trigger the burst. This is for both Ncycle and Gated burst operations. Manual – Manual trigger source. 7. If Gated option is selected, a Polarity option will be available.
BNC connector at the beginning of the burst. The frequency corresponds to the burst period. Off – Trigger output be disabled If External source is selected previously, the Edge option will be available, and the Trig On option will not be available. The up arrow means it will trigger off the rising edge of the external signal. The down arrow means it will trigger off the falling edge of the external signal. Note: These options are not available for Gated burst operations.
9. If Ncycle is selected in the previous steps, the Cycles/Infinite option will be available. Use the corresponding menu function key to toggle between the two options. If Cycles is selected, user the rotary knob or the numeric keypad to enter the number of cycles to burst. Cycles – Select to specify the number of cycles of the waveform to burst. Adjustable range is 1 – 50,000 cycles Infinite – Select to burst an infinite number of cycles of the waveform.
Accessing Store/Recall Menu Select Instrument State or Arbitrary Waveforms Folder/Drive Directory Select Folder or File Directory File Directory To access the store and recall menu, press the Store/Recall button from the front panel. The above screen will display. The left column is the folder or drive directory. Internal storage is labeled as Local (C:) . If an external USB flash drive is connected, USB Device (0:) will show in the directory.
Browse Files Directory Browse Folder Directory Press the corresponding menu function key to select between State or Data under FileType. Select State to show the list of internal instrument states. Select Data to show the list of internal arbitrary waveforms. Arbitrary Waveforms List Instrument States List Use the up or down arrow keys to move the selection cursor between the lists.
3. Press the menu function key corresponding to Browser again to change to File. 4. From the menu, change FileType to State. 5. Use the up and down arrow keys to move the selection cursor and highlight any item (state memory locations) on the list from STATE1 – STATE 10. 6. Once selected, press the Save option from the menu to store current instrument settings into the selected state memory location. 7. The screen will ask you to enter a file name.
file name. Once selected, press Select option from the menu to enter the highlighted character. To delete characters, press Delete from the menu. To cancel, press Cancel from the menu. 6. When finished, select Save from the menu. If saved successfully, a “Store state success!” message will be shown. Wait a few seconds before the screen returns to the Store/Recall main display. 7. The file directory displaying the contents of the USB flash drive will now have a new file with the entered filename with a .
1. Connect the USB flash drive to the front panel USB port, and a message will appear on the display after a second “A USB drive has been detected.” 2. Press the Store/Recall button and select Folder under Browser and select USB Device (0:). 3. From the menu, change FileType to Data. Then, change Browser to File. 4. Use the up and down arrow keys to move the selection cursor and select the .csv file from the USB flash drive that contains the arbitrary waveform data saved from EasyWave software. 5.
3.8 Utility Functions The utility menu can be accessed by pressing the Utility button from the front panel. This section describes all the settings configurable under this menu. DC Waveform Output The instrument can output a DC waveform by turning the DC menu option to On. There are six available pre-defined DC offset output levels that can be selected from the menu: 1 V, -1 V, 2 V, -2 V, 5 V, -5 V. Use the menu function keys to select any of these DC offset voltages.
Remote Interface The instrument has a USB interface in the rear panel for remote communication with EasyWave software. From the utility menu, press Interface to select the interface. Press USB Setup and select USBTMC, then select Done. Note: USBRAW is reserved for factory use only. A type A to type B USB cable is required for PC connectivity. To connect with EasyWave software, you must install the USB driver. For Windows® 7 users, this may install automatically. For other users, visit www.bkprecision.
3. On the AK40G adapter, a RED LED light indicates power to the adapter. A YELLOW LED light indicates communication is in process. Power indicator LED GPIB USB PC Generator AK40G Communication indicator LED Figure 1 - Connecting AK40G GPIB adapter Note: Once connected, do not unplug the adapter on either end, before powering down the instrument and the computer first. Configure GPIB address 1. Press Utility to enter the utility menu, and press Interface to select the interface. 2.
Output Impedance The output impedance of the instrument can be switched between 50 Ω and HighZ (high impedance). Select the menu function key corresponding to Load to toggle between the two settings. Note: If you are connecting directly into an oscilloscope, note that most scopes have 1 MΩ impedance. In this case, it is best to set the output impedance to HighZ to match the load impedance. However if your load impedance is 50 Ω, keep output impedance set to 50 Ω to match.
To cancel, select Cancel. Sync Output Note: Sync output is not available for noise and DC waveforms. The rear panel has a Sync Out BNC terminal available to provide a synchronization output signal. This output can be enabled and can be setup to provide a sync signal that correlates with channel 1 or channel 2. To set up, press the Sync option from the utility menu. Under Channel, use the corresponding menu function key to select CH1 or CH2.
For external gated burst, the sync output follows the external gated signal. Frequency Counter The instrument has a built-in frequency counter. The counter input shares the same BNC terminal as the channel 2 main output terminal, labeled CNT. To access and enable the counter function, select the Counter option from the utility menu. Note: When the counter function is enabled, channel 2 will automatically be disabled and the same BNC terminal will become the counter’s input terminal.
Adjust Reference Frequency The default reference frequency used by the counter is 10 MHz. Users can change this reference frequency by selecting RefeFreq and use the rotary knob or the numeric keypad to change the reference frequency value. Adjust Trigger Level The trigger level of the counter can be adjusted by selecting TrigLev from the menu. Use the rotary knob or the numeric keypad to change the trigger level. The maximum trigger level value is 1.8 V, and the minimum is – 3.0 V.
Coupling The counter can be set to AC or DC coupling. Select Mode from the menu and toggle the corresponding menu function key to change between DC or AC for DC and AC coupling respectively. HFR A high frequency reject filter can be enabled or disabled. Enabling this filter may help improve the frequency measurements of certain signals. From the menu, select HFR and toggle the corresponding menu function key to turn it On or Off.
System Settings In the utility menu, select 1/2 from the menu to go to the second page of the menu, then select the System option. Numerical Format The number format can be changed on the instrument. Select Number Format from the menu.
Toggle the corresponding menu function key to select Point to choose between using period (.) or comma (,) as the decimal representation of all numerical values on display. Numeric separators can also be configured by selecting the Separator option. Choose between On, Off, or Space. Below illustrates the difference between the three on all applicable numerical values on the display. Separator: Off Separator: Space Separator: On Select Done when finished. Language Default language is English.
configured during the last power-on state. This function can be used to retain instrument configurations in the case of power interruptions. Press the PowerOn option from the menu to select between Default and Last. Default will load default instrument settings during power up. Last will load instrument settings from the last power up state. Note: The output states of both channels cannot be recalled at power-on. For safety reasons, the states are disabled by default.
Phase Count Trig Source Counter Measurement Mode Reference Frequency Trigger Level Mode HFR 0° 1 Cycle Off Internal Frequency 10.000000 MHz 0.0 V AC Off Select 1/2 to go to the second page of the system menu. Key Sound Select Beep and toggle the corresponding menu function key to turn the instrument key press sound On or Off. This will also disable the sound for any errors that may occur during front panel or remote operation.
Clock Source By default, the instrument uses an internal clock source to generate output waveforms. An external 10 MHz clock source can also be used, especially for synchronization purposes. To change to use an external clock source, select CLKSource and set it to External by pressing the menu function key. To change it to Internal, press the key again. When set to External, connect a 10 MHz reference signal to the rear BNC terminal labeled 10MHz In. Self Test and Adjustment See section “2.
8. When finished, a message will prompt you to restart the generator. At this point, power off the instrument and wait a few seconds, then power it back on. 9. The instrument will now have the updated firmware. You can verify this by checking the instrument information (follow instructions from the previous section to check). 3.10 Help System A built-in help system is available to provide quick references on setting up common output configurations with the generator.
4 Troubleshooting Guide Below are some frequently asked questions and answers. Please check if any apply to your power supply before contacting B&K Precision. Q: I cannot power up the generator - Check that the power cord is securely connected to the AC input and there is live power from your electrical AC outlet. - Verify that the AC power coming from the mains is the correct voltage. The generator can accept a specific range of AC input voltages. Refer to section “2.1”.
5 Specifications Note: All specifications apply to the unit after a temperature stabilization time of 15 minutes over an ambient temperature range of 23 °C ± 5 °C. Specifications are subject to change without notice. Environmental Conditions: This instrument is designed for indoor use and operated with maximum relative humidity of 95%.
Cross Talk Offset Range (DC) < -70 dBc Channel 1: ± 5 V into 50 Ω ± 10 V into open circuit Channel 2: ± 1.5 V into 50 Ω ± 3 V into open circuit Offset Resolution Up to 4 digits Offset Accuracy ± ( |Offset setting value| * 1% + 3 mV) Output Impedance 50 Ω (typical) Output Protection Short-circuit protection Waveform Characteristics Harmonic Distortion DC – 1 MHz, < - 60 dBc 1 MHz – 5 MHz, < -53 dBc 5 MHz – 25 MHz, < - 35 dBc 25 MHz – 50 MHz, < -32 dBc Total Harmonic DC – 20 kHz at 1 Vpp, < 0.
Resolution 0.
Source Modulation Waveform Phase Deviation PWM Modulation Frequency Source Modulation Waveform External Modulation Duty Cycle Modulating Frequency Sweep Characteristics Waveforms Sweep Shape Sweep Time Sweep Trigger Internal, External Sine, Square, Ramp, Noise, Arbitrary (2 mHz – 20 kHz) 0 – 360 °, 0.1 ° resolution 500 µHz – 20 kHz Internal, External Sine, Square, Ramp, Noise, Arbitrary (except DC) - 6 V to + 6 V (max.
Input Impedance Coupling Trigger Level Range (typical) General Display Resolution Remote Control Interface Storage Memory Dimensions (WxHxD) Weight Power Power Consumption Temperature Humidity Altitude 1 MΩ AC, DC -3 V to +1.8 V 3.5” TFT-LCD Display, 320 x 240 USBTMC (standard), GPIB (optional) 10 Instrument settings, 10 Arbitrary waveforms 213mm x 89 mm x 281 mm (8.4” x 3.5” x 11.1”) 2.6 kg (5.7 lbs) 100 – 240 VAC ± 10%, 50 / 60 Hz ± 5% 100 – 120 VAC ± 10%, 45 – 440 Hz 50 W max.
SERVICE INFORMATION Warranty Service: Please go to the support and service section on our website at www.bkprecision.com to obtain a RMA #. Return the product in the original packaging with proof of purchase to the address below. Clearly state on the RMA the performance problem and return any leads, probes, connectors and accessories that you are using with the device. Non-Warranty Service: Please go to the support and service section on our website at www.bkprecision.com to obtain a RMA #.
LIMITED ONE-YEAR WARRANTY B&K Precision Corp. warrants to the original purchaser that its products and the component parts thereof, will be free from defects in workmanship and materials for a period of one year from date of purchase. B&K Precision Corp. will, without charge, repair or replace, at its option, defective product or component parts. Returned product must be accompanied by proof of the purchase date in the form of a sales receipt.
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