Teledyne SDG1000 Series User Manual
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Teledyne SDG1000 Series User Manual

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User Manual
SDG1000 Series Function/Arbitrary Waveform Generator
SDG1005/SDG1010/SDG1020/SDG1025/SDG1050
2011 SIGLENT Technologies Co., Ltd

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  • Page 1 User Manual SDG1000 Series Function/Arbitrary Waveform Generator SDG1005/SDG1010/SDG1020/SDG1025/SDG1050 2011 SIGLENT Technologies Co., Ltd...
  • Page 2 Declaration Copyright © SIGLENT Technologies Co., Ltd. All rights reserved. Contents in this Manual are not allowed to be copied, extracted and translated before being allowed by SIGLENT Company SDG1000 User Manual...
  • Page 3 General Safety Summary Review the following safety precautions to avoid injury and prevent damage to this product or any products connected to it. To avoid potential hazards, use this product only as specified. Only qualified personnel should perform service procedures. To Avoid Fire or Personal Injury Use proper power line.
  • Page 4 Do not operate with suspected failures. If you suspect there is damage with this product, you should have it inspected by qualified service personnel authorized by SIGLENT before further operations. Provide proper ventilation. Do not operate in wet/damp conditions. Do not operate in an explosive atmosphere. Keep the product’s surfaces clean and dry.
  • Page 5 Safety Terms and Symbols Terms in this guide, these terms may appear in this manual: Terms on the product, terms below may appear on the product: DANGER: Indicates an injury or hazard that may immediately happen. WARNING: Indicates an injury or hazard that may not immediately happen. CAUTION: Indicates that a potential damage to the instrument or other property might occur.

  • Page 6: Introduction Of Sdg1000 Series

    SDG1000 Series Function/Arbitrary Waveform Generator has a clear and simple front-panel. The user-friendly panel layout and instructions, versatile...
  • Page 7 DDS technology provides precise, stable and low distortional output signal. 3.5’TFT color LCD display. 125MSa/s sampling rate, 14-bit resolution. Frequency characteristics: Sine: 1μHz to 50MHz Square: 1μHz to 25 MHz Ramp: 1μHz to 300kHz Pulse: 500μHz to 5MHz White Noise: 50MHz bandwidth (-3dB) Arbitrary: 1μHz to 5MHz 5 standard waveforms: Sine, Square, Ramp, Pulse, Noise Self-defined arbitrary waveform...
  • Page 8 system. Note: All the specifications described in this guide are according to SDG1050. If you need to know the particular specifications about the other types, please see ‘Specifications’ in Chapter 6. SDG1000 User Manual...

  • Page 9: Table Of Contents

    Catalogue General Safety Summary.................II Introduction of SDG1000 Series ..............V 1. Getting Started...................1 1.1. General Inspection ................2 1.2. Handle Adjustment ................3 1.3. The Front/Rear Panel...............4 1.4. To Set a Waveform ................7 1.5. To Set Modulate/Sweep/Burst ............12 1.6. To Set Output .................14 1.7.
  • Page 10 2.15. How to Use the Built-in Help System ..........84 3. Application and Examples ...............85 3.1. Example 1:Generate a Sine Wave ..........86 3.2. Example 2:Generate a Square Wave ..........88 3.3. Example 3:Generate a Ramp Wave ..........90 3.4. Example 4:Generate a Pulse Wave ..........92 3.5.

  • Page 11: Getting Started

    1. Getting Started This chapter covers the following topics: General Inspection Handle Adjustment The Front/Rear Panel To Set a Waveform To Set Modulate/Sweep/Burst To Set Output To Use Digital Input To Use Store/Utility/Help Function SDG1000 User Manual...

  • Page 12: General Inspection

    1.1. General Inspection When you get a new SDG1000 Series Function/Arbitrary Waveform Generator, you are suggested to take the following steps to inspect the instrument. 1. Inspect the shipping container for damage. If there are damages in the packing or foam, keep them until the whole machine and the accessories pass the electric and mechanical testing.

  • Page 13: Handle Adjustment

    1.2. Handle Adjustment To adjust the handle position of SDG1000 Function/Arbitrary Waveform Generator, please grip the handle by the sides and pull it outward. Then, make the handle rotate to the desired position. Figure 1- 1 Viewing Position and Carrying Position SDG1000 User Manual...

  • Page 14: The Front/Rear Panel

    1.3. The Front/Rear Panel When you get a new SDG1000 Series Function/Arbitrary Waveform Generator, first you need to understand how to operate the front/rear panel correctly. This chapter will make a brief introduction and description for the operation and functions of the front/rear panel.
  • Page 15 Power Menu Function Output Direction Display Operation keys Control keys Figure 1- 3 Front Panel of SDG1000 Series 10MHz In Sync Out Ext Trig/Gate/ Power Modulation FSK/Burst Socket Figure 1- 4 Rear Panel of SDG1000 Series SDG1000 User Manual...
  • Page 16 Waveform Display Operation Menu: Window Different functions have different menus Parameter Display and Editing Window Figure 1- 5 Display Interface (Sine Wave is the default display signal) Character definitions in this User Manual: The signs for buttons in this manual are the same as the panel buttons. Please note that, the signs for the functional buttons on the operation panel are represented by squared words, such as Sine , which represents the transparent functional key with Sine on it on the front panel, while the menu...

  • Page 17: To Set A Waveform

    Figure 1- 6 Waveform Selection Buttons 1. Press Sine button and the waveform window will display sine waveform. SDG1000 Series Generator can generate sine signal with a frequency from 1μHz to 50MHz. By setting frequency/period, amplitude/high level, offset/low level, sine signal with different parameters can be generated.
  • Page 18 4.0Vpp amplitude and 0Vdc offset. 2. Press Square button, and the waveform window displays square waveform. SDG1000 Series Generator can generate square signal with a frequency from 1μHz to 25MHz and variable duty cycle. Figure 1- 8 Square Signal Display Interface...
  • Page 19 4.0Vpp amplitude, 0Vdc offset and 50% duty cycle. 3. Press Ramp button, and the waveform window displays ramp waveform. SDG1000 Series Generator can generate ramp signal with a frequency of from 1μHz to 300kHz and variable symmetry. Figure 1- 9 Ramp Signal Display Interface As is shown in Figure 1- 9, the default signal parameters are: 1kHz frequency, 4.0Vpp amplitude, 0Vdc offset and 50% symmetry.
  • Page 20 4.0Vpp amplitude, 0Vdc offset, 200μs pulse width. 5. Press Noise button, and the waveform window displays noise waveform. SDG1000 Series Generator can generate noise signal with a band width up to 50MHz. Figure 1- 11 Noise Signal Display Interface As is shown in Figure 1- 11, the default signal parameters are: 2.0V Variance...
  • Page 21 6. Press Arb button, and the waveform window displays arbitrary waveform. SDG1000 Series Generator can generate repeatable arbitrary waveform signals with at most 16K points and 5MHz frequency. Figure 1- 12 Arbitrary Waveform Signal Display Interface As is shown in Figure 1- 12, the default signal parameters are: 1kHz frequency, 4.0Vpp amplitude and 0mVdc offset.

  • Page 22: To Set Modulate/Sweep/Burst

    SDG1000 Series can modulate waveform using AM, FM, PM, ASK, FSK, PWM and DSB-AM. Sine, square, ramp and arbitrary waveforms can be modulated (pulse, noise and DC can not be modulated).
  • Page 23 2. Press Sweep button, sine, square, ramp or arbitrary waveform can be swept (pulse, noise and DC can not be swept). In the sweep mode, SDG1000 Series generate signal with variable frequencies. Figure 1- 15 Sweep Waveform Display Interface 3. Press Burst button, burst for sine, square, ramp, pulse or arbitrary waveform can be generated.

  • Page 24: To Set Output

    Term Explanation Burst: Output waveforms with set cycle times. Burst can last for certain times of waveform cycle (N-Cycle Burst) or be controlled by external gated signals (Gated Burst). Burst applies to all kinds of waveforms, but noise can only be used in gated burst. Generally it is called burst function within every signal generator.

  • Page 25: To Use Digital Input

    1.7. To Use Digital Input As is shown in Figure 1- 18, there are three sets of buttons on the operation panel, which are direction button, the knob and the keypad. The instruction below will help you familiarize with the digital input function. Figure 1- 18 Front Panel Digital Input 1.

  • Page 26: To Use Store/Utility/Help Function

    1.8. To Use Store/Utility/Help Function As is shown in Figure 1- 19, there are three buttons on the operation panel, which are used to call the store/recall, utility and help function. The instruction below will help you familiarize with these functions. Figure 1- 19 Store/Recall Utility and Help Button 1.

  • Page 27: Operating Your Generator

    2. Operating Your Generator Up to now you have got a brief understanding about SDG1000 series with the front/rear panel, every function control area and keys. You should also know how to set your Function/Arbitrary Waveform Generator for your usage. If you are not familiar with these operations, you are suggested to read chapter one ‘Getting Started’...

  • Page 28: To Set Sine Signals

    2.1. To Set Sine Signals Press Sine button to call the sine operation. The sine waveform parameters are set by using the sine operation menu. The parameters of sine waveforms are: frequency/period, amplitude/high level, offset/low level and phase. Different sine signals are generated by setting these parameters.
  • Page 29 Figure 2- 2 Table2- 1 Menu Explanations of Sine Waveform Function Setting Explanations menu Set the signal frequency or period; Freq/ The current parameter will be switched at Period a second press. Set the signal amplitude or high level; Ampl/ The current parameter will be switched at HLevel a second press.
  • Page 30 Figure 2- 3 Setting the Frequency Instruction: When using the keypad to enter the digit, you can use the left direction button to move the cursor backward and delete or change the value of the previous digit. To Set the Output Amplitude 1.
  • Page 31 2. Input the desired Amplitude Use the keypad or the knob to input the desired value, choose the unit, and press the corresponding button. Figure 2- 4 Setting the Amplitude To Set the Output Offset 1. Press Sine →Offset, to set the offset. The offset shown on the screen when the instrument is powered is the default value or the set value beforehand.
  • Page 32 Figure 2- 5 Setting the Offset SDG1000 User Manual...

  • Page 33: To Set Square Signals

    2.2. To Set Square Signals Press Square button to call the Square operation. The square waveform parameters are set by using the Square operation menu. The parameters of Square waveforms are: frequency/period, amplitude/high level, offset/low level, phase and duty. As is shown in Figure 2- 6, select Duty. Cursor is located in the duty parameter area in the parameter display window, and users can set the duty value here.
  • Page 34 Figure 2- 7 Table2- 2 Menu Explanations of Square Waveform Function Settings Explanation Menu Set the signal frequency or period; Freq/ The current parameter will be switched at a Period second press. Set the signal amplitude or high level; Ampl/ The current parameter will be switched at a HLevel second press.
  • Page 35 2. Input the desired Duty Cycle Use the keypad or the knob to input the desired value, choose the unit, and press the corresponding button. The generator will change the waveform immediately. Figure 2- 8 Setting the Duty Cycle SDG1000 User Manual...

  • Page 36: To Set Ramp Signals

    2.3. To Set Ramp Signals Press Ramp button to call the ramp operation. The ramp waveform parameters are set by using the ramp operation menu. The parameters for ramp waveforms are: frequency/ period, amplitude/ high level offset/ low level, phase and symmetry. As is shown in Figure 2- 9, in the soft key menu, select Symmetry.
  • Page 37 Figure 2- 10 Table2- 3 Menu Explanations of Ramp Waveform Function Settings Explanation Menu Set the signal frequency or period; Freq/ The current parameter will be switched at Period a second press. Set the signal amplitude or high level; Ampl/ The current parameter will be switched at HLevel a second press.
  • Page 38 2. Input the desired Symmetry Use the keypad or the knob to input the desired value, choose the unit, and press the corresponding button. The generator will change the waveform immediately. Figure 2- 11 Setting the Symmetry SDG1000 User Manual...

  • Page 39: To Set Pulse Signals

    2.4. To Set Pulse Signals Press Pulse button to call the pulse operation. The pulse waveform parameters are set by using the pulse operation menu. The parameters for pulse waveforms are: frequency/period, amplitude/high level, offset/low level, pulse width and delay. As is shown in Figure 2- 12, in the soft key menu, select PulWidth.
  • Page 40 Figure 2- 13 Table 2- 4 Menu Explanations of Pulse Waveform Function Settings Explanation Menu Set the signal frequency or period; Freq/ The current parameter will be switched at a Period second press. Set the signal amplitude or high level; Ampl/ The current parameter will be switched at a HLevel...
  • Page 41 2. Input the desired Pulse Width Use the keypad or the knob to input the desired value, choose the unit, and press the corresponding button. The Generator will change the waveform immediately. Figure 2- 14 Setting the Pulse Width To Set the Delay 1.
  • Page 42 Figure 2- 15 Setting the Delay SDG1000 User Manual...

  • Page 43: To Set Noise Signals

    2.5. To Set Noise Signals Press Noise button to call the Gaussian White noise operation. The noise waveform parameters are set by using the noise operation menu. The parameters for noise waveforms are: Variance and mean. As is shown in Figure 2- 16, in the soft key menu, select Variance, Cursor is located in the Variance parameter area in the parameter display window, and users can set the Variance value here.
  • Page 44 Figure 2- 17 Table 2- 5 Menu Explanations of Noise Waveform Function Settings Explanation Menu Variance Set the signal Variance Mean Set the signal mean SDG1000 User Manual...

  • Page 45: To Set Arbitrary Signals

    2.6. To Set Arbitrary Signals Press Arb button to call the Arb operation. The Arb waveform parameters are set by using the Arb operation menu. The Arb signal consists of two types: the system built-in waveform and the user-definable waveform. The parameters for Arb waveforms are: frequency/period, amplitude/high level, offset/ low level and phase.
  • Page 46 Figure 2- 19 Table 2- 6 Menu Explanations of Arb Waveform (Page 1/2) Function Settings Explanation Menu Set the signal frequency or period; Freq/ The current parameter will be switched at Period a second press. Set the signal amplitude or high level; Ampl/ The current parameter will be switched at HLevel...
  • Page 47 To select the built-in Arbitrary Waveform There are forty-eight built-in Arbitrary Waveforms and user-definable Arbitrary Waveforms inside the Generator. To select one of them, follow the instructions below: Press Arb →Load Wform, to enter the interface below. Figure 2- 21 Table 2- 8 Menu Explanations of Built-in Arbitrary Waveform Function Settings...
  • Page 48 Figure 2- 22 Table 2- 9 Menu Explanations of Built-In Arbitrary Waveform Function Settings Explanation Menu Common Select common waveform. Math Select math waveform. Project Select project waveform. Winfun/ Select windows function Triangle /triangle waveform. Select Validate the built-in waveform. Figure 2- 23 Common Built-In Arbitrary Waveform interface Table 2- 10 Menu Explanations of Common Built-In Arbitrary Waveform Function...
  • Page 49 Figure 2- 24 Math Built-In Arbitrary Waveform Interface Table 2- 11 Menu Explanations of Math Built-in Arbitrary Waveform Function Settings Explanation Menu ExpFall Select the built-in exponential fall waveform. ExpRise Select he built-in exponential rise waveform. LogFall Select the built-in logarithmic fall waveform. LogRise Select the built-in logarithmic rise waveform.
  • Page 50 Table 2- 12 Menu Explanations of Project Built-in Arbitrary Waveform Function Settings Explanation Menu Select the built-in electrocardiogram (ECG) signal Cardiac waveform. Select built-in loma prieta earthquake Quake waveform. Select built-in swept-frequency cosine Chirp waveform. TwoTone Select the built-in two tone signal waveform. Select the built-in sin wave with white noise waveform.
  • Page 51 Atan Select the built-in tangent waveform. Select built-in inverse cotangent Acot waveform. 2. To Select the Stored Waveform Press Arb →Load Wform->Stored Wforms, and enter the following interface. As is shown in Figure 2- 27, use the direction keys or knob to choose the corresponding arbitrary waveform and press Select.

  • Page 52: To Generate The Modulated Waveform

    2.7. To Generate the Modulated Waveform Use the Mod button to generate modulated waveform.SDG1000 Series can generate AM, FM, ASK, FSK, PM, PWM and DSB-AM modulated waveforms. Modulating parameters vary with the types of the modulation. In AM, users can set the source (internal/external), depth, modulating frequency, modulating waveform and carrier waveform;...
  • Page 53 The modulated waveform consists of two parts: the carrier waveform and the modulating waveform. In AM, the amplitude of the carrier waveform varies with the instantaneous voltage of the modulating waveform. The parameters for the AM are in Figure 2- 29 Press Mod →Type→...
  • Page 54 Term Explanation Modulation Depth The amplitude range (also called ‘Percentage Modulation’). Modulation depth varies from 1% to 120%. In the 0% modulation, the output amplitude is the half of the set one. In the 100% modulation, the output amplitude is the same with the set one.
  • Page 55 Press Mod →Type→ FM, to enter the following menu. Figure 2- 31 Table 2- 15 Menu Explanations of the FM Parameters Function Settings Explanation Menu Set the modulating waveform frequency. FM Freq Frequency range 2mHz~20kHz (internal source). FM Dev Set the maximum frequency deviation Type Frequency modulation Sine...
  • Page 56 ASK is a form of modulation that represents digital data as variations in the amplitude of a carrier wave. The amplitude of an analog carrier signal varies in accordance with the bit stream (modulating signal), keeping frequency and phase constant. The parameters for the ASK are as shown in Figure 2- 32 Figure 2- 32 Setting Interface of ASK Waveform Parameter Press Mod →Type→...
  • Page 57 The FSK Modulation is a modulation method, the output frequency of which switches between two the pre-set frequencies (carrier waveform frequency and the hop frequency). The frequency at which the output frequency switches is called the key frequency. Figure 2- 34 Setting Interface of FSK Waveform Parameter Press Mod →Type→...
  • Page 58 The modulated waveform consists of two parts: the carrier waveform and the modulating waveform. In PM, the phase of the carrier waveform varies with the instantaneous voltage level of the modulating waveform. The parameters for the PM are as shown in Figure 2- 36. Figure 2- 36 Setting Interface of PM Waveform Parameter Press Mod →Type →PM, enter the following interface.
  • Page 59 Figure 2- 37 Table 2- 18 Menu Explanations of the PM Parameters Function Settings Explanation Menu Set the modulating waveform frequency. PM Freq Frequency range: 2mHz~20kHz Phase Range from 0° ~ 360°. Type Phase modulation Sine Square Triangle Choose the modulating waveform. Shape UpRamp To change the carrier waveform parameter,...
  • Page 60 The modulated waveform consists of two parts: the carrier waveform and the modulating waveform, the carrier waveform is only pulse. In PWM, the pulse width of pulse varies with the instantaneous voltage of the modulating waveform. The parameters for the FM are as shown in Figure 2- 38. Figure 2- 38 Setting Interface of PWM Waveform Parameter Press Mod→...
  • Page 61 Figure 2- 39 Table 2- 19 Menu Explanations of the PWM Parameters Function Settings Explanation Menu modulating waveform PWM Freq frequency. Frequency range: 2mHz~20kHz (internal source only). Width Dev Set the width range. Duty Dev Set the duty range. Type Amplitude modulation.
  • Page 62 DSB-AM Press Mod→ Type →DSB-AM. The parameters for the DSB-AM are as shown in Figure 2- 40. Figure 2- 40 Setting Interface of DSB-AM Waveform Parameter Figure 2- 41 Table 2- 20 Menu Explanations of the DSB-AM Parameters Function Settings Explanation Menu Set the modulating waveform frequency.

  • Page 63: To Generate Sweep

    2.8. To Generate Sweep In the frequency sweep mode, the function generator ‘steps’ from the start frequency to the stop frequency at the sweep time you specify. Sweep can be generated by sine, square, ramp or arbitrary waveforms (pulse, noise and DC are not allowed).
  • Page 64 Figure 2- 43 Table 2- 21 Menu Explanations of Waveform Sweep (Page 1/2) Function Settings Explanation Menu Set the time span of the sweep in which Swp Time the frequency changes from the start frequency to stop frequency. Stop Freq Set the stop frequency of the sweep;...

  • Page 65: To Generate Burst

    2.9. To Generate Burst Burst function can generate versatile waveforms in burst, which can last specific times of waveform cycle (N-Cycle burst), or when external gated signals (gated burst) is applied, any waveform could be used, but noise can only be used in Gated Burst. Press Burst button to enter the following interface.
  • Page 66 Set the N-Cycle Burst Press Burst → N Cycle, to enter the following interface. Figure 2- 46 Table 2- 23 Menu Explanations of the N-Cycle Parameters(Page 1/2) Function Settings Explanation Menu Period Set the burst Period. Start Set the start phase of the burst. Phase NCycle Use the N-Cycle mode.
  • Page 67 N-Cycle/Gated N-Cycle has specific number of waveform cycles, and every burst is activated by a trigger event. Gated burst use external source to control burst as when to be activated. Figure 2- 47 Table 2- 24 Menu Explanations of the N-Cycle Parameters (Page2/2) Function Settings Explanation...
  • Page 68 Delay Set the time delay between the trigger input and the start of the N-Cycle burst. The max delay is 240ns. Set the Gated Burst Press Burst →Gated, to enter the following interface. Figure 2- 48 Table 2- 25 Menu Explanations of the Gated Burst Parameters Function Settings Explanation...

  • Page 69: To Store And Recall

    2.10. To Store and Recall Press Store/Recall button to enter the following interface. You can save or recall the state documentation inside the generator. The state file on the U Disk is also allowed to recall or delete. File names can only be English. User can only recall or delete the data documentation you save via CSV of the Oscilloscopes.
  • Page 70 Figure 2- 50 Table 2- 26 Menu Explanations of Save and Recall (Page 1/2) Function Settings Explanation Menu State The setting of the generator; File Type Data Arbitrary waveform file; Directory Browser Shift between the directory and file. File Save the waveform to the appointed Save place.
  • Page 71 To save the instrument state, the procedures are given as followed: 1. Choose the file type to store Press Store/Recall →Type→ State, and choose state as the storage type. 2. Choose the location of the file. There are ten positions in the Local(C :), choose anyone of them by rotating the knob.
  • Page 72 1. Install the USB Device Insert the USB Device into the USB interface on the front panel, and the screen will show ‘USB flash device plug in’, and storage menu will show ‘USB Device (A :)’ 2. Choose the USB Device Press Browser->Directory, move the cursor with the up or down direction key to select ‘USB Device (A :)’.
  • Page 73 Figure 2- 52 File Storage Interface Figure 2- 53 Table 2- 27 Menu Explanation of File Storage Function Settings Explanation Menu Input English input. Type Select Select the current character. Delete Delete the current character. Save Store the file with the current name SDG1000 User Manual...
  • Page 74 1. English Input The English input interface is as shown in Figure 2- 54, to save a file named ‘NEWFILE’, follow the steps below: Figure 2- 54 English Input Interface (1) Press InType->En, to enter the English interface. (2) Input the file name’ NEWFILE’. Use the Knob to adjust the cursor’s horizontal position and the up and down key to adjust the vertical position.

  • Page 75: To Set The Utility Function

    2.11. To Set the Utility Function With the Utility Function, you can set the parameters of the generator such as: DC On/Off, Sync On/Off, Output Parameter, Interface Parameter, System Setting and Testing Parameter. The DC switch offers the options of DC output or Arbitrary Waveform Output.
  • Page 76 Figure 2- 56 Table 2- 29 Menu Explanations of Utility System Setting (Page2/2) Function Settings Explanation Menu System Set the system configuration. Test/Cal Test and calibrate the instrument. EditInfo Information of the system. Update Update function. To Set the DC Output Press Utility →DC→DC On, to enter the following interface.
  • Page 77 To Shift into the Arbitrary Waveform Output 1. Press Utility →DC→DC Off, to close DC output and return to arbitrary waveform output. 2. Press any functional button, and the waveform output setting turns into the arbitrary waveform output. The DC output is turned off automatically. To Set IO Press Utility →IO Setup, to set the IO interface.
  • Page 78 Figure 2- 59 Set the Output Load Instruction SDG1000 Series has a fixed 50Ω Series Impendence. No matter what value the set parameter is, if the real load is different from the set one, the displayed voltage will not equal the real voltage.
  • Page 79 2. To Set the Invert Waveform Press Utility →Output Setup→ Invert, to set the Inverse Waveform Output. When the waveform is inverse, no offset will change. 3. To Set the Sync Output The generator provides Sync output through the [Sync] connector on the rear panel.
  • Page 80 To measure the frequency SDG1000 Series have included a frequency counter which could measure frequency from 100mHz to 200MHz. Press Utility →Count, to enter the following interface. Figure 2- 60 Table 2- 31 Menu Explanations of Frequency Counter Function Settings...
  • Page 81 To Set the System Press Utility → System, to enter the following interface. Figure 2- 62 Table 2- 33 Menu Explanations of System Setup (Page 1/2) Function Settings Explanation Menu Number Set the number format. format Language Set the display language. All the settings return to default when Default powered;...
  • Page 82 Key points: Power On Choose the configuration setting when the machine is powered. Two choices are available: the default setting and the latest. Once selected, the setting will be used when the instrument is powered. Beep Activate or deactivate the sound when an error occurs from the front panel or the remote interface.
  • Page 83 Figure 2- 65 Table 2- 35 Menu Explanations of Setting the Number Format Function Settings Explanation Menu Using dot to represent point; Point Using comma to represent point. Enable the Separator; Separator Close the Separator; Space Use Space to separate. According to the different choices of the point and the separator, the format can have various forms.
  • Page 84 Separator->Space, the example is as followed: Figure 2- 71 Set Format 2. Language Setup The SDG1000 Series Generator offers two languages (English and Simplified Chinese) for user to choose. To Select Language, press Utility and then Language to select the language.
  • Page 85 3. To Return to Default Setting Press Utility →System→ Set to Default, to set the system to the default setting. The default settings of the system are as followed: Table 2- 36 Factory Default Setting Output Default Function Sine Wave Frequency 1kHz Amplitude/Offset...

  • Page 86: Test/Cal

    2.12. Test/Cal Press Utility →Test/Cal, to enter the following menu. Figure 2- 72 Test/Cal function Menu Figure 2- 73 Table 2- 37 Menu Explanations of Test Setting Function Settings Explain Menu SelfTest Perform system self-test. SelfCal Do self calibration SDG1000 User Manual...
  • Page 87 SelfTest Press Utility →Test/Cal →SelfTest, to enter the following menu. Figure 2- 74 Table 2- 38 Menu Explanations of Self Test Function Settings Explain Menu Scr Test Run screen test program. Key Test Run keyboard test program. LED Test Run LED test program. 1.
  • Page 88 2. Key Test Select ‘keyboard Test’ to enter the keyboard test interface, the on-screen lathy rectangle shapes represent the front panel keys. The shapes with two arrows beside them represent the front panel knobs. Test all keys and knobs and you should also verify that all the backlit buttons illuminate correctly. Note: When you operate, the screen would display the white (color LCD).
  • Page 89 3. LED Test Select ‘LED Test’ to enter the lighten interface, the on-screen lathy rectangle shapes represent the front panel keys; the shapes with two arrows beside them represent the front panel knobs. The clew words ‘Press ‘7’ Key to continue, ‘Press ‘8’...
  • Page 90 SelfCal Press Utility →1/2→Test/Cal →SelfCal, to enter SelfCal, as is shown in Figure 2- 78. SelfCal: do self calibration, environment you use the generator changes, system may calibrate data based on change of current environment Figure 2- 78 SelfCal Interface SDG1000 User Manual...

  • Page 91: Edition Information

    2.13. Edition Information Press the EditInfo option button of the Utility Menu to view the generator’s hardware and software configuration. Figure 2- 79 Edit Info Interface Edition Information introduce Boot-strap No: The times of boot-strap Software version: Software version of current equipment Hardware version: 00-00-00-15-22 represents ordinally: PCB version, BOM version, Daughter card version, FPGA version, CPLD version.
  • Page 92 Serial No: Bit 1-6 represent maker and series of the product. Bit 7-10 represent production date. Bit 11-14 represent serial number of product. For example: SDG00002110008 represents the eighth generator made by SIGLENT in the second quarter of 2011. SDG1000 User Manual...

  • Page 93: Updating Firmware

    2.14. Updating Firmware Using USB flash drive update firmware The software of the generator can be updated directly via USB flash drive. This process takes about two minutes. Follow the next steps: 1. Insert USB flash drive with firmware procedure to USB host interface on the front panel of the generator.

  • Page 94: How To Use The Built-In Help System

    2.15. How to Use the Built-in Help System You can get a particularly help for every button on the front panel by using the built-in help system. Or you can get help about the operation of the front panel buttons with the help list. Press Help to enter the following interface.

  • Page 95: Application And Examples

    3. Application and Examples To help the user master how to use the Function/ Arbitrary Waveform Generator more efficiently, we will describe some examples in detail. All the examples below use the default setting of the instrument except especial explanations. This chapter includes the following topics: Example 1: Generate a Sine Wave Example 2: Generate a Square Wave...

  • Page 96: Example 1:Generate A Sine Wave

    3.1. Example 1:Generate a Sine Wave Generate a sine wave with 50kHz frequency, 5Vpp amplitude and 1Vdc offset. Steps: Set the frequency. 1. Press Sine →Freq and choose frequency which will display in white color. 2. Input ‘50’ from the keyboard and choose the unit ‘kHz’. The frequency is set to be 50kHz.
  • Page 97 Figure 3- 1 Sine Waveform SDG1000 User Manual...

  • Page 98: Example 2:Generate A Square Wave

    3.2. Example 2:Generate a Square Wave Generate a square wave with 5kHz frequency, 2Vpp amplitude, 0Vdc offset and 30% duty cycle. Steps: Set the frequency. Press Square →Freq and choose Frequency which will display in white color. 2. Input ‘5’ from the keyboard and choose the unit ‘kHz’. The frequency is set to be 5kHz.
  • Page 99 Figure 3- 2 Square Waveform SDG1000 User Manual...

  • Page 100: Example 3:Generate A Ramp Wave

    3.3. Example 3:Generate a Ramp Wave Generate a ramp wave with 10μs period, 100mVpp amplitude, 20mVdc offset, 45°phase and 30% symmetry. Steps: Set the period. 1. Press Ramp →Freq and choose Period which will display in white color. 2. Input ‘10’ from the keyboard and choose the unit ‘μs’. The period is set to be 10μs.
  • Page 101 Set the symmetry 1. Press Symmetry to choose Symmetry which will display in white color. 2. Input ‘30’ from the keyboard and choose the unit ‘30%’. The symmetry is set to be 30%. When the period, amplitude, offset, phase and symmetry are set, the wave generated is shown in Figure 3- 3: Figure 3- 3 Ramp Waveform SDG1000 User Manual...

  • Page 102: Example 4:Generate A Pulse Wave

    3.4. Example 4:Generate a Pulse Wave Generate a pulse wave with 5kHz frequency, 5V high level, -1V low level, 40μs pulse width and 20ns delay. Steps: Set the frequency. 1. Press Pulse → Freq and choose Freq, which will display in white color. 2.
  • Page 103 Set the Delay 1. Press Delay and choose Delay which will display in white color. 2. Input ‘20’ from the keyboard and choose the unit ‘ns’. The delay is set to be 20ns. When the frequency, high level, low level, pulse width and delay are set, the wave generated is shown in Figure 3- 4 Figure 3- 4 Pulse Waveform SDG1000 User Manual...

  • Page 104: Example 5:Generate A Noise Wave

    3.5. Example 5:Generate a Noise Wave Generate a noise waveform with 2V variance and 1 V mean. Steps: Set the Amplitude 1. Press Noise →Variance. 2. Input ‘2’ from the keyboard and choose the unit ‘V’. The amplitude is set to be 2 V.

  • Page 105: Example 6:Generate An Arbitrary Wave

    3.6. Example 6:Generate an Arbitrary Wave Generate an arbitrary waveform (Sinc) with 5MHz frequency, 2Vrms amplitude and 0Vdc offset. Steps: Set the type of the arbitrary waveform. 1. Press Arb → (1/2↓) →Load form, to choose the built-in waveform.. 2. Press Built-In→ Math, There are sixteen math arbitrary waveforms. 3.
  • Page 106 the wave generated is shown in Figure 3- 6: Figure 3- 6 Sinc Waveform SDG1000 User Manual...

  • Page 107: Example 7:Generate A Sweep Linear Wave

    3.7. Example 7:Generate a Sweep Linear Wave Generate a sine sweep waveform whose frequency starts from 100Hz to 10kHz. Use internal trigger mode, linear sweep, and the sweep time is 2s. Steps: Set the sweep function: Press Sine and choose the sine waveform as the sweep function. The default setting of the source is internal.
  • Page 108 Set the end frequency Press Stop Freq, Input ‘10’ from the keyboard and choose the unit ‘kHz’ to set stop freq 10kHz. Set the Sweep Mode Press (1/2↓) →Linear, and choose Linear. When all parameters above are set, the linear sweep wave generated is shown in Figure 3- 7 Figure 3- 7 Sweep Waveform SDG1000 User Manual...

  • Page 109: Example 8:Generate A Burst Wave

    3.8. Example 8:Generate a Burst Wave Generate a burst waveform of 5 cycles. The period is 3ms. Use internal trigger and 0 degree phase. Steps: Set the sweep function: Press Sine, and choose the sine waveform as the burst function. The default setting of the source is internal.
  • Page 110 set the start phase 0°. Set the burst cycles Press (1/2↓) →Choose Cycles, Input ‘5’ from the keyboard and choose the unit ‘Cycle’ to set the burst cycle 5. Set the delay Press Delay, and input ‘100’ from the keyboard and choose the unit ‘μs’ to set the delay 100μs.

  • Page 111: Example 9:Generate An Am Wave

    3.9. Example 9:Generate an AM Wave Generate an AM waveform with 80% depth. The carrier is a sine wave with 10kHz frequency, and the modulating wave is a sine wave with 200Hz frequency. Steps: Set the frequency, amplitude and offset of the carrier wave. 1.
  • Page 112 Figure 3- 9 AM Waveform SDG1000 User Manual...

  • Page 113: Example 10:Generate A Fm Wave

    3.10. Example 10:Generate a FM Wave Generate a FM waveform, the carrier is a sine wave with 10kHz frequency, and the modulating wave is a sine wave with 1 Hz frequency, 2kHz frequency deviation. Steps: Set the frequency, amplitude and offset of the carrier wave. 1.
  • Page 114 3- 10: Figure 3- 10 FM Waveform SDG1000 User Manual...

  • Page 115: Example 11:Generate A Pm Wave

    3.11. Example 11:Generate a PM Wave Generate a PM waveform, the carrier is a sine wave with 10kHz frequency, and the modulating wave is a sine wave with 2kHz frequency, 90°phase deviation. Steps: Set the frequency, amplitude and offset of the carrier wave. 1.
  • Page 116 Figure 3- 11 PM Waveform SDG1000 User Manual...

  • Page 117: Example 12:Generate A Fsk Wave

    3.12. Example 12:Generate a FSK Wave Generate a FSK waveform with 200Hz key frequency. The carrier is a sine wave with 10kHz frequency, and the hop frequency is 500Hz. Steps: Set the frequency, amplitude and offset of the carrier wave. 1.
  • Page 118 Figure 3- 12 FSK Waveform SDG1000 User Manual...

  • Page 119: Example 13:Generate An Ask Wave

    3.13. Example 13:Generate an ASK Wave Generate an ASK waveform with 500Hz key frequency. The carrier is a sine wave with 5kHz frequency. Steps: Set the frequency, amplitude and offset of the carrier wave. 1. Press Sine , and choose the sine waveform as the carrier wave 2.
  • Page 120 Figure 3- 13 ASK Waveform SDG1000 User Manual...

  • Page 121: Example 14: Generate A Pwm Wave

    3.14. Example 14: Generate a PWM Wave Generate a PWM waveform with 200Hz key frequency. The carrier is a pulse wave with 5kHz frequency. Steps: Set the frequency, amplitude and offset of the carrier wave. 1. Press Pulse , and choose the Pulse waveform as the carrier wave 2.
  • Page 122 When all parameters above are set, the wave generated is shown in Figure 3- 14 Figure 3- 14 PWM Waveform SDG1000 User Manual...

  • Page 123: Example 15: Generate A Dsb-Am Wave

    3.15. Example 15: Generate a DSB-AM Wave Generate a DSB-AM waveform with 100Hz key frequency. The carrier is a sine wave with 2kHz frequency. Steps: Set the frequency, amplitude and offset of the carrier wave. 1. Press Sine , and choose the sine waveform as the carrier wave 2.
  • Page 124 Figure 3- 15 DSB-AM Waveform SDG1000 User Manual...

  • Page 125: Troubleshooting

    4. Troubleshooting General Inspecting After receiving a new SDG1000 Series Function/Arbitrary Waveform Generator, please inspect the instrument as followed: 1. Inspect the shipping container for damage. Keep the damaged shipping container or cushioning material until the contents of the shipment have been checked for completeness and the instrument has been checked mechanically and electrically.

  • Page 126: Troubleshooting

    Troubleshooting 1. After the waveform generator is powered on, the screen remains dark, please do the following steps: (1) Check the power cable’s connection. (2) Ensure the power switch is turned on. (3) After the inspections above, restart the waveform generator. (4) If the generator still doesn’t work after the checking, please connect with SIGLENT company 2.

  • Page 127: Service And Support

    5. Service and Support Maintain summary SIGLENT warrants that the products that it manufactures and sells will be free from defects in materials and workmanship for a period of three years from the date of shipment from an authorized SIGLENT distributor. If a product proves defective within the respective period, SIGLENT will provide repair or replacement as described in the complete warranty statement.

  • Page 128: Contact With Siglent

    Contact with SIGLENT MTR Add: 3/F, Building 4, Antongda Industrial Zone, Liuxian Road, 68 District, Baoan District, Shenzhen, P.R. CHINA Service Tel: 0086 755 3661-5186 Post Code: 518101 E-mail:support@siglent.com http://www.siglent.com SDG1000 User Manual...

  • Page 129: Appendix

    6. Appendix Appendix A: Accessories SDG1000 Series Function/ Arbitrary Waveform Generator Accessories: Standard Accessories: A User Manual A Certification A Guaranty Card A CD(including EasyWave1.0 computer software system) A Power Cord that fits the standard of destination country A USB Cable...

  • Page 130: Appendix B: Daily Maintain And Cleaning

    Appendix B: Daily Maintain and Cleaning Daily Maintain Do not store or leave the instrument in where the LCD will be exposed to direct sunlight for long periods of time. CAUTION: To avoid damage to the instrument, do not expose them to sprays, liquids, or solvents.

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