SIGLENT SDG3000X Series Arbitrary Waveform Generator Guide Guide

Phatlalatso
SIGLENT products are protected by patent law in and outside of P.R.C.
SIGLENT reserves the right to modify or change parts of or all the specifications or pricing policies at the company’s sole decision.
Boitsebiso bo hlahang khatisong ena bo nkela boitsebiso bohle bo neng bo ngollana sebaka.
Any method of copying, extracting, or translating the contents of this manual is not allowed without the permission of SIGLENT.
Hlokomela: SIGLENT ke letshwao la kgwebo le ngodisitsweng la SIGLENT TECHNOLOGIES CO., LTD.

Kakaretso ea Tšireletseho

Bala ka hloko litemoso tse latelang tsa polokeho ho qoba kotsi leha e le efe ea botho kapa tšenyo ea sesebelisoa le lihlahisoa leha e le life tse amanang le sona. Ho qoba likotsi tse ka bang teng, ka kopo sebelisa sesebelisoa joalo ka ha ho boletsoe.

To Avoid Fire or Personal Injure.
Sebelisa Khoele e Ntle ea Matla
Ke thapo ea motlakase feela e etselitsoeng sesebelisoa le e lumelletsoeng ke melao ea mmuso oa lehae e lokelang ho sebelisoa.
Tlosa Seletsa
Sesebelisoa se thehiloe ka sekontiri sa lefats'e se sireletsang sa mohala oa matla. Ho qoba ho tsukutloa ke motlakase, ka kopo etsa bonnete ba hore sesebelisoa se theiloe ka nepo pele o hokela liteishene tsa ho kenya kapa tse tsoang.
Hokela Mohala oa Letšoao ka nepo
Monyetla oa mobu oa mohala oa pontšo o lekana le mobu oa lefatše. Se ke oa hokela mohala oa lets'oao ho molumo o phahamengtage.

Look Over All Terminal Ratings
Ho qoba mollo kapa ts'okelo ea motlakase, ka kopo sheba lintlha tsohle le ho saena litaelo tsa sesebelisoa. Pele o hokela sesebelisoa, ka kopo bala bukana ka hloko ho fumana leseli le eketsehileng mabapi le litekanyetso.
Equipment Maintenance and Service.
In the event of an equipment failure, please do not dismantle the machine for maintenance. The equipment contains capacitors, power supply, transformers and other energy storage devices which may cause high voltage damage. The internal devices of the equipment are sensitive to static electricity and direct contact can easily cause irreparable damage to the equipment. It is necessary to return to the factory or to the company’s designated maintenance organization for maintenance. Be sure to pull out the power cord before repairing the equipment. Live line operation is strictly prohibited. The equipment can only be powered on when the maintenance is completed and the maintenance is confirmed to be successful.

Boitsebiso ba Boemo bo Tloaelehileng ba Thepa.
After the equipment is started, there will be no alarm information and error information at the interface under normal conditions. The curve of the interface will scan from left to right freely; if there is a button in the scanning process or there is alarm or error prompt, the device may be in an abnormal state. You need to view boitsebiso bo khethehileng. U ka leka ho qala litlhophiso bocha. Haeba lintlha tsa phoso li ntse li le teng, u se ke ua li sebelisa bakeng sa tlhahlobo. Ikopanye le moetsi kapa lefapha la tlhokomelo le kgethilweng ke moetsi ho etsa paballo ho qoba data e fosahetseng ya teko e bakwang ke tshebediso ya phoso kapa ho beha polokeho ya motho kotsing.

U se ke Ua Sebelisana le Liphoso Tse Likahalang.
If you suspect that there is damage to the instrument, please let only qualified service personnel check it.
Avoid Exposed Circuits, Wire, or Components.
Se ke oa ama likhokahano kapa likarolo tse pepeneneng ha motlakase o buletsoe.
Se ke oa sebetsa ka metsi / damp maemo.
Se ke oa sebetsa sebakeng se phatlohileng.
Boloka bokaholimo ba sesebelisoa bo hloekile ebile bo omme.
Only lithium batteries with the same specification could be used to replace the battery on the main board.
Sehlopha se ikarabellang kapa mokhanni o lokela ho sheba bukana ea litaelo ho boloka tšireletso e fanoang ke thepa. Haeba thepa e sebelisoa ka tsela e sa boleloang ke moetsi, tšireletso e fanoeng ke thepa e ka senyeha.
Likarolo life kapa life tsa sesebelisoa le lisebelisoa tsa sona ha lia lumelloa ho fetoloa kapa ho fetoloa, ntle le tumello ea moetsi kapa moemeli.

Melao le Matšoao a Tšireletseho

Terms used in this product. These terms may appear in the product:
KOTSI E bontsha kotsi e tobileng kapa dikotsi tse ka hlahang.
TLHOKOMELO E supa kotsi e ka hlahang kapa likotsi tse ka hlahang.
TLHOKOMELO E supa tšenyo e ka bang teng ho sesebelisoa kapa thepa e 'ngoe e ka etsahalang.

Matšoao a sebelisitsoeng sehlahisoa sena. Matšoao ana a ka hlaha sehlahisoa:

Tlhokomelo e Akaretsang le Tlhoekiso

Tlhokomelo:
Do not store or leave the instrument in direct sunshine for extended periods.
To avoid damage to the instrument or probes, please do not expose them to fog, liquid, or solvents.

Ho hloekisa:
Please perform the following steps to clean the instrument.

Disconnect the instrument from all power sources and then clean it with a soft damp lesela.

Clean the loose dust on the outside of the instrument with a soft cloth.

To avoid damage to the surface of the instrument, please do not use any corrosive liquid or chemical cleansers.
Make sure that the instrument is completely dry before restarting it to avoid potential short circuits or personal injury.

Tlhahlobo e Akaretsang

Hlahloba setshelo sa thomello
Keep the original shipping container and cushioning material until the contents of the shipment have been completely checked and the instrument has passed both electrical and mechanical tests.
The consigner or carrier will be responsible for damages to the instrument resulting from shipment.
SIGLENT will not provide free maintenance or replacement if the instrument has been damaged in shipment.
Hlahloba sesebelisoa
If there are instruments found damaged, defective, or have failed any electrical and / or mechanical tests, please contact SIGLENT.

Sheba lisebelisoa
Ka kopo, hlahloba lisebelisoa ho latela lenane la ho paka. Haeba lisebelisoa li sa fella kapa li senyehile, ka kopo ikopanye le moemeli oa hau oa thekiso ea SIGLENT.

Mehato ea pele

Lenane la Tekolo
Ntlha ea pele, etsa bonnete ba hore lintho tsohle tse thathamisitsoeng lethathamong la ho paka li fihlile. Haeba o hlokomela tse siileng kapa tse senyehileng, ka kopo ikopanye le setsi sa tšebeletso sa bareki se haufi sa SIGLENT kapa mofani oa thepa kapele kamoo ho ka khonehang. Haeba u hloleha ho iteanya le rona hang-hang haeba ho ka etsahala hore u se ke ua etsa joalo kapa u senyehile, re ke ke ra jara boikarabelo ba ho fetola.

Netefaletso ea boleng
The instrument has a 3-year warranty (1-year warranty for attachments) from the date of shipment, during normal use and operation. SIGLENT can repair or replace any product that is returned to the authorized service center during the warranty period. We must first examine the product to make sure that the defect is caused by the process or material, not by abuse, negligence, accident, abnormal conditions or operation.

SIGENT e ke ke ea ikarabella bakeng sa sekoli, tšenyo, kapa ho hloleha ho bakoang ke efe kapa efe ea tse latelang:
a) Attempted repairs or installations by personnel other than SIGLENT.
b) Connection to incompatible devices/incorrect connection.
c) For any damage or malfunction caused by the use of non-SIGLENT supplies. Furthermore, SIGLENT shall not be obligated to service a product that has been modified. Spare, replacement parts, and repairs have a 90-day warranty.

The instrument’s firmware has been thoroughly tested and is presumed to be functional. Nevertheless, it is supplied without warranty of any kind covering detailed performance. Products not made by SIGLENT are covered solely by the warranty of the original equipment manufacturer.

Tumellano ea Tlhokomelo
We provide various services on the basis of maintenance agreements. We offer extended warranties as well as installation, training, enhancement and on-site maintenance and other services through specialized supplementary support agreements. For details, please consult your local SIGLENT customer service center or distributor.

Ho itokisa pele ho Sebelisa

Fetola Maoto a Tšehetsang
Adjust the supporting legs properly to use them as stands to tilt the instrument upwards for stable placement as well as easier operation and observation of the instrument.

Ho hokela ho Phepelo ea Matla
Matla a tloaelehileng bakeng sa sesebelisoa ke 100 ~ 240 V, 50/60 Hz. Ka kopo sebelisa thapo ea motlakase e fanoeng le sesebelisoa ho e hokahanya le motlakase oa AC.

Selelekela sa Phanele

Phanele e ka pele

Phetoho ea Matla
This key is used to turn on/off the AWG.
Moamoheli oa USB
SDG3000X supports U-Disk using FAT format. It’s used to read waveforms or state files from a U-Disk or store the current state of the instrument to the U-Disk. Users can update the firmware through U-Disk.

Trig/Sync Input and Output
Trig and Sync signals input and output port.
CH1/2 Output
Analog channel signal output port
Sebaka sa pontšo
Displays the current function menu and parameter settings, system status and prompt information, etc., and sets the signal source through touch operation

Front panel keypad

Waveform selection shortcut keys (Sine, Square, Pulse, etc.)	In AFG mode, it can quickly select different waveforms through the corresponding waveform buttons. The SEQ button quickly enters the sequence waveform (AWG) mode.
Number and unit keys	Used to input the value and unit of the selected parameter. Enter key is used to confirm parameter modification. ESC key is used to cancel modification. Back key deletes the last digit.
Knob	When setting parameters, the knob is used to increase (clockwise) or decrease the parameter value (counterclockwise). when storing or reading files, the knob is used to select files. Long press the knob to take a screenshot and save it to a local directory or USB drive.
Linotlolo tsa motsu	Used to change the cursor position.
Konopo ea tlhahiso	Analog channel output control. The Output button is used to turn on or off the channel output, and the signal is output from the BNC port.
CH1/CH2 button	Used to switch CH1 or CH2 as the currently selected channel.
Mod, Sweep, Burst	It can quickly enter the modulation/sweep/pulse train function menu by shortcut keys. When the function is turned on, the corresponding button light is on.
Hlahisa	Manual trigger input.
Tšebeliso	Quickly call the system settings menu.
Boloka/Hopola	Quickly call the file mookameli.
Lehae	Quickly return to the main interface.
Thetsa	Turn the touch function on or off. When the touch function is turned on, the button light is on.

Karolo e ka morao

10M REF IN
External 10 MHz reference clock input port.
10M REF OUT
Internal 10 MHz reference clock output port.

MOEKETSI MOHAPI
External modulation signal input port.
KHABANE
Frequency Counter measured signal input port.
Motlakase oa AC
Power supply input port.
Boema-kepe ba LAN
used to connect the generator to a computer or the network where the computer is located for remote control.
Kou ea Sesebelisoa sa USB
Through this interface, you can connect to a PC and control the generator through the host computer software Easy Wave X or user-defined programming.

USB Host port
The function is the same as the USB Host interface on the front panel.

Mosebelisi

LEQEPHE LEHAE

Waveform and parameter display area, showing the currently selected waveform of each channel and the corresponding waveform parameters.
Dual-channel output configuration area, dual-channel combine diagram and settings. Click the switch in the area to switch between channel output alone and output after merging channels.
Channel output and setting area, channel output parameter display and control. Click channel number to turn on/off the channel.
Function selection area, provide working mode selection, system configuration and other settings.
Information display bar, showing network connection status, clock status, etc.

Function selection button description

Leqephe la lapeng	Quickly return to the home page.
Output Setting	Enter the output setting page to set output polarity, noise superposition, output filter, amplitude limit, overvoltage tshireletso, jj.
Multi-Channel	Enter the multi-channel setting page and set the channel combination, channel tracking, and coupling functions.
AFG	If the currently selected channel is in AFG mode, enter the waveform parameter setting interface of the channel, otherwise switch the channel to AFG mode.
AWG	If the currently selected channel is in AWG mode, enter the sequence wave setting interface, otherwise switch the channel to sequence wave mode.
IQ	If the current mode is IQ, then enter the IQ waveform setting interface, otherwise it will switch to IQ mode.
Lisebelisoa	Select functions such as multi-pulse and frequency counter.
Tšebeliso	Enter the system information query, system settings, interface settings, file manager and other setting pages.

Parameter setting page (taking basic waveform as an example)

The information display bar and function selection area are the same as the home page.
Channel selection: You can select the corresponding channel for parameter configuration. The brackets after the channel number indicate the working mode of the current channel. For example, AFG indicates that the current channel is in AFG mode, and AWG indicates that the current channel is in AWG mode.
Pele ho Waveview area: Display the currently selected waveform. Click to select the output waveform.
Parameter setting box: The left side is the parameter name. If there is an icon before the parameter name, it means that the parameter has other replaceable parameters, such as “frequency” can be switched to “period”. Click to switch parameters. The right side is the parameter value. If there is a unit, the unit is displayed at the same time. Click the parameter value area to set the parameter value through the virtual keyboard or the front panel keypad. If the parameter value or unit is followed by an icon , it means that there are multiple options to choose from (such as the unit of the sine wave amplitude can be selected as “Vpp”, “Vrms” or “dBm”), click to select. If the parameter area is a switch icon , it means that the parameter has only two states, “ON” and “OFF”, click the icon to switch. If the parameter value is followed by an icon , it means that there are more detailed parameter settings, click the icon ho kenya leqephe la ho seta.

Ts'ebetso ea Motheo

This manual provides instructions for the basic operations of the instrument. For more advanced operations, please refer to the User Manual of the product.

AFG Mode Basic Waveform Output
Basic operation instructions: Text with boxes represents the corresponding buttons, such as representing Output button. The gray background text, such as AFG , indicates the corresponding function options on the display screen.
Using a 10MHz, 2Vpp, 1V offset sine wave as an example, explain the operation method of waveform output.

allows you to switch and select the channel to output the waveform. Each press will switch back and forth between the two channels.
Select AFG in the function selection area. If the current channel is not in AFG mode, it will switch to AFG mode. If the current channel is in AFG mode, it will enter the parameter setting page.
Click the waveform preview area and select Sine waveform.
Click the frequency parameter setting box, at the frequency value, use the virtual keyboard to enter 10, and then select the unit M.
Tobetsa ea Amplitude parameter setting box, enter 2 at the Amplitude value using the virtual keyboard, and then press .

Click the offset parameter setting box, enter 1 at the offset value using the virtual keyboard, and then press .
Tobetsa to output 10MHz, 2Vpp, 1V offset sine waves. Connect the BNC interface of the corresponding channel to the oscilloscope, and the output waveform can be observed.

To output other waveforms, click the waveform preview area and select the desired waveform. Different waveforms can have different parameters.

Basic Waveform Setting
Click the waveform preview area and select the desired waveform. The corresponding waveform parameter will appear in the display area. By setting the waveform parameters, the corresponding waveform can be output.
The main parameters of the basic waveform are shown in the table below.

Table 1 Basic waveform parameters description

Paramethara	tlhaloso
Sine/Square/Pulse/Ramp/Noise/PRBS
Frequency/Period	Set the frequency/period of the signal. The unit of frequency is Hz. and the unit of period is s. The relationship between the two is: frequency=1/period. Tobetsa letšoao to switch between parameters.
Amplitude/High Level Offset/Low Level	Seta amplitude/offset of the signal to be linked with high/low levels. The amplitude value refers to the difference between the highest point (high level, unit V) and the lowest point (low level, unit V) of a signal. The supported units include Vpp. Vrms. and dBm (available when the load * HiZ): The offset refers to the DC component superimposed on the signal waveform, measured in volts: The relationship between several parameters is: Amplitude value (Vpp) = high low level – low level Offset = (high level + low level)/2 Tobetsa letšoao to switch between parameters.
Mokgahlelo / Ho dieha	The phase/delay of the signal is only meaningful when the dual channel phase mode is phase locked. used to set the phase relationship between two channels. The unit of phase is °. and the unit of delay is s. The relationship between the two is: Delay=- (period x phase/3601 Tobetsa letšoao to switch between parameters.
Sekwere
Mosebetsi	Set the ratio of the positive pulse width to the period of the square wave. The unit is %.
Pulse
Width/Duty	Pulse width refers to the positive pulse width of a pulse. measured in seconds: Duty cycle refers to the ratio of positive pulse width to period. measured in%. The relationship between the two is: Pulse width= period x duty cycle Tobetsa letšoao to switch between parameters.
Rise/Fall Edge	The rising edge refers to a rising time of 10% to 90%. and the falling edge refers to a falling time of 90% to 10%. both of which are measured in seconds. The rising and falling edges are independent of each other and can be set separately.
Ramp
Symmetry	The ratio of the time and period during which a triangular wave is rising. The unit is %.
DC
Offset	The ‘offset’ parameter of the same sine wave. i.e. the DC level.
Lerata
Stdev	Standard deviation of noise sequence.
Bolela	Mean value of noise sequence (mathematical expectation).
Bophahamo ba motlakase	-3dB bandwidth of noise.

PRBS
Bit Rate/Period	The bit rate/symbol period of PRBS sequence, with the unit of bit rate being bps and the unit of symbol period (UI) being s. The relationship between the two is: Bit rate=1/symbol period Tobetsa letšoao to switch between parameters.
Lekala la Logic	Used to quickly set the amplitude to some standard levels.
Bolelele	PRBS-3~32 can be set, corresponding to lengths (2^3-1)~(2^32-1).
Qetello	Refers to a rise time of 10% to 90% and a fall time of 90% to 10%, expressed in seconds. Setting both rising and falling edges simultaneously.

Ho feto-fetoha ha molumo oa lentsoe
SDG3000X supports commonly used analog modulation (AM/DSB-SC/FM/PM/PWM, etc.) and digital keying (ASK/FSK/PSK, etc.). The modulation source can be selected from both internal and external sources.
Select Mod and turn on the switch on the right to enable the modulation function.

Table 2 Modulation parameters description

Paramethara	tlhaloso
Mofuta	Choose modulation types, including AM, DSB-SC, FM, PM, ASK, FSK, PSK, PWM, and the modulation types supported by different carriers are the same.
Mohloli oa Lets'oao	Set modulation source, can choose internal or external modulation source.
AM Botebo	AM modulation parameters, also known as amplitude modulation coefficient (m), Determined by the maximum value U _{cm, max} and minimum value U _{cm, min} tsa amplitude modulation wave envelope:

	When the source is internal or channel, this value can be directly set; When the signal source is external, it is determined by the amplitude of the external modulation input.
FM Dev	FM modulation parameters. The maximum value ?? of instantaneous frequency deviation from carrier frequency ?? , When the frequency deviation reaches, it corresponds to the maximum or minimum amplitude of the modulating waveform. The modulated carrier frequency varies within the range of ?? ± ??. When the source is internal or channel, this value can be directly set; When the signal source is external, it is determined by the amplitude of the external modulation input, and the full amplitude of the external modulation corresponds to the set frequency deviation.
Mokhahlelo oa Dev	PM modulation parameters. The maximum value of instantaneous phase??(?)when the instantaneous phase deviates from the carrier without modulation Δφ, When the phase deviation reaches, it corresponds to the maximum or minimum amplitude of the modulating waveform. The modulated carrier phase varies within the range of ??(?) ± ??. When the source is internal or channel, this value can be directly set; When the signal source is external, it is determined by the amplitude of the external modulation input, and the full amplitude of the external modulation corresponds to the set phase deviation.
Hop Freq	FSK modulation parameters. The output frequency varies between carrier frequencies ?? and ??-?_ℎ??.
Polarity	PSK modulation parameters, Positive/Negative. When in positive phase, the phase is 0 ° when changing from 0 to 1; When changing from 1 to 0, the phase is 180 °; When reversed, it is opposite.
Bophara Dev	PWM modulation parameters, the deviation of positive pulse width from the maximum value of positive pulse width without modulation, and when the deviation of pulse width reaches, it corresponds to the maximum or minimum value of modulation waveform amptsebo. When the source is internal or channel, this value can be directly set; When the signal source is external, it is determined by the amplitude of the external modulation input, and the full amplitude of the external modulation corresponds to the set pulse width deviation.
Sebopeho	The shape of the modulated wave. When the source is internal, this value can be directly set; When the signal source is external, it is determined by the waveform of the externally modulated input.
Mod Freq	The frequency of the modulation waveform. When the source is internal, this value can be directly set; When the signal source is external, it is determined by the external modulation input frequency.
Key Freq	ASK/FSK/PSK modulation parameters. The bit rate of a binary sequence. When the signal source is internal, this value can be directly set, and the internal source is a clock sequence with a specified frequency; When the source is external, it is determined by the 0/1 state of the modulation input.

Fiela
Sweep belongs to special frequency modulation (FM) or amplitude modulation (AM). When the sweep is turned on, the carrier output frequency or amplitude can vary according to the set (linear/logarithmic/step) and can be controlled by the trigger signal.

Table 3 Sweep parameters description

Paramethara	tlhaloso
Mofuta	Supports three sweep types: frequency, amplitude, frequency and amptsebo.
Nako ea ho Fiela	Set the time required for a sweep.
Start Freq/Center Freq Stop Freq/Freq Span	Sweep frequency parameters. The relationship is as follows: Center Freq = ( Start Freq + Stop Freq) / 2 Freq Span = \| Stop Freq – Start Freq \| Tobetsa letšoao to switch between parameters.
Qala Ampl/Center Ampl Stop Ampl/Ampl Span	The amplitude parameter of the scan. The relationship is as follows: Center Ampl = (Start Ampl + Stop Ampl) / 2 Ampl Span = \| Stop Ampl – Start Ampl \| Tobetsa letšoao to switch between parameters.
Mohloli	Three trigger sources are available: internal, external, and manual.
Hlahisa	When the trigger source is internal or manual, the trigger output interface on the front panel can output a trigger signal, and the rising edge of the trigger signal corresponds to the start of sweeping.
Mokhoa	Supports three modes of sweeping: Linear, Log, Step. Linear sweeping: FM/AM with modulated waves as sawtooth waves. Its frequency/amplitude changes linearly from the starting frequency/amplitude to the ending frequency/amplitude during the scanning cycle. Logarithmic sweep: The frequency change follows a 10x rule and is commonly used for frequency response testing in some channels. The frequency response is generally plotted in logarithmic coordinates (10 octaves), so in order to see a uniform distribution of samples on the logarithmic coordinate plot, logarithmic scanning (only frequency scanning is supported) is needed. Step sweeping: The output signal frequency varies in a stepped manner from the start frequency to the end frequency. The frequency points are controlled by the “Step Number”.

Tataiso

There are three modes: up, down, and up and down.
Up represents sweeping frequency from low to high; Downward represents sweeping frequency from high to low; The up and down mode is only applicable to linear sweeping, which sweeps from the start frequency to the end frequency within the sweep time, and then sweeps back to the start frequency. This method is equivalent to using a triangular waveform for frequency modulation, and the symmetry of the triangular waveform can be set, corresponding to different up sweep times and down sweep times (the amplitude parameters are also the same during amplitude sweeping).

Symmetry

When the sweeping direction is “up and down”, set the symmetry of the modulated triangular waveform.

Ho phatloha
Burst is a burst signal that triggers the output of a certain number of carrier cycles through a certain control signal.

Table 4 Burst parameters description

Paramethara	tlhaloso
NCycle/Gated	Supports two Burst types. NCycle: Output a specified number of carrier cycles (N) each burst signal. Gated: When the gate control signal is effective, the carrier is output; otherwise, it is not output. The gate control signal can be high or low effective. Tobetsa letšoao to switch between parameters.
Cycle/Infinite	Under the NCycle type, set the number of cycles for each N-loop burst train. Tobetsa letšoao to switch between parameters.
Qala Mokhahlelo	Set the Initial phase at the start of the burst.
Nako ea ho phatloha	This parameter is used to set the period of the burst signal (i.e. time interval between burst trains). It only effective when the trigger source is internal or manual.
Mohloli	Three trigger sources are available: internal, external, and manual.
Trig Delay	Set the delay time from triggering the NCycle burst train to starting output.
Qetello	Set the trigger signal edge, rising edge, or falling edge.
Burst Counter	Set the number of burst trains output when the trigger source is external and manual under Ncycles.
Polarity	Set the gate signal to “positive” or “negative” to output a burst signal.

Arbitrary Waveform(Sequence) Setting
SDG3000X can output built-in waveform or user-defined arbitrary waveform. The built-in arbitrary waveform is stored in the instrument’s internal non-volatile storage area. The maximum number of waveform points supported by SDG3000X is 40 Mpts.
A sequence consists of multiple waveforms, each of which is called a segment. SDG3000X supports up to 1024 segments. Each segment can be set loop times and trigger source.

Select AWG to switch to AWG mode, enter the sequence setting page, click the waveform preview area in the sequence editing table to select the waveform to be output. It can set the run mode, sample rate, interpolation method, etc. of the sequence wave. The parameters for setting arbitrary waveforms mainly include: waveform length, amplitude/high level, offset/low level, trigger conditions, interpolation method, etc., and you can get the waveform you want by changing the corresponding parameter values.

For arbitrary waveform output, you need to click the Output switch after setting the parameters, and click the RUN button before the waveform is output.

Table 5 Sequence parameters description

Paramethara	tlhaloso
SR	Sample rate ,the rate of waveform points output.
Amplitude/High Level Offset/Low Level	Same as the basic waveform.
Bolelele	The length of the waveform. If the set length is different from the length of the waveform file, the original waveform file will be interpolated or decimated to fit the set waveform length.

Loop	The number of repetitions of the waveform segment
Wait Event	The trigger source of segment playback. When this trigger condition occurs, the waveform starts to play.
E 'ngoe	Indicates the next segment to be played after the current segment has played a specified number of times.
Keketseho	When the set segment length is greater than the original length of the waveform file, the waveform interpolation method.
Ho fokotseha	When the set segment length is less than the original length of the waveform file, the waveform extraction method.
Phetolelo	Refers to the interpolation method when waveform output.
Mokhoa oa ho matha	Sequence playback mode, including Continuous, Trigged, Burst, Step, and Advanced mode.

Save & Recall
SDG3000X supports the storing and recalling of state files, waveform files, and firmware upgrade files. The storage and recall file locations include internal memory (Local) and external USB storage devices (e.g., USB flash drives). The storage and recall operations are implemented through the file mookameli.
Khetha ho kena ka file management and select the corresponding waveform file.

Ho batle phoso

1. If the power switch is pressed, the generator LCD screen still appears black. Please follow the following steps to handle it:

Check if the power supply is powered on
Qala sesebelisoa bocha
If you still cannot use this product normally, please contact SIGLENT and let us serve you

2. If the settings are correct but there is no waveform output, please follow the following steps to handle it:

Check if the BNC cable is properly connected;
Check if the channel output is turned on;
After completing the above checks, set the power on setting to the previous setting and restart the instrument

Ntlo-khōlō: SIGENT Technologies Co., Ltd Add: Bldg No.4 & No.5, Antongda Industrial Zone, 3rd Liuxian Road, Bao’an District, Shenzhen, 518101, Chaena Mohala: + 86 755 3688 7876 Fekse: + 86 755 3359 1582 Lengolo-tsoibila: sales@signent.com Websebaka: int.siglent.com	Amerika e leboea: SIGLENT Technologies NA, Inc Add: 6557 Cochran Rd Solon, Ohio 44139 Mohala: 440-398-5800 Mahala: 877-515-5551 Fax: 440-399-1211 Lengolo-tsoibila: info@signentna.com Websebaka: www.signentna.com
Europe: SIGLENT Technologies Germany GmbH Eketsa: Staetzlinger Str. 70 86165 Augsburg, Jeremane Mohala: +49(0)-821-666 0 111 0 Fax: +49(0)-821-666 0 111 22 Lengolo-tsoibila: info-eu@signent.com Websebaka: www.siglenteu.com	Malaysia: SIGLENT Technologies (M) Sdn. Bhd Add: NO.6 Lorong Jelawat 4 Kawasan Perusahaan Seberang Jaya 13700, Perai Pulau Pinang Mohala: 006-04-3998964 Lengolo-tsoibila: sales@signent.com Websebaka: int.siglent.com

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SIGLENT SDG3000X Series Arbitrary Waveform Generator [pdf] Bukana ea Mosebelisi
SDG3000X Series Arbitrary Waveform Generator, SDG3000X Series, Arbitrary Waveform Generator, Waveform Generator, Generator

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