General Warranty PeakTech warrants that the product will be free from defects in materialand workmanship for a period of 3 years from the date of purchase of the product by the original purchaser from the PeakTech Company. And the warranty period of accessories such as probe, battery is 12 months. This warranty only applies to the original purchaser and is not transferable to the third party.
Table of Contents 1. General Safety Requirements .......................................................................................... 1 2. Safety Terms and Symbols ............................................................................................... 2 3. Junior User Guidebook ................................................................................................... 4 Introduction to the Structure of the Oscilloscope....................................................................
How to Operate the Function Menu ........................................................................................ 48 How to Implement Sampling Setup ....................................................................................................... 48 How to Set the Display System .............................................................................................................. 49 How to Save and Recall a Waveform.......................................................................
Testing for Continuity ............................................................................................................................ 87 Multimeter Features.................................................................................................................. 87 Data Hold Mode ..................................................................................................................................... 87 Information Display ...................................................
1.General Safety Requirements 1. General Safety Requirements Before any operations, please read the following safety precautions to avoid any possible bodily injury and prevent this product or any other products connected from damage. In order to avoid any contingent danger, this product is only used within the range specified. Only the qualified technicians can implement the maintenance. To avoid Fire or Personal Injury: Connect the probe correctly.
2.Safety Terms and Symbols 2. Safety Terms and Symbols Safety Terms Terms in this manual. The following terms may appear in this manual: Warning: Warning indicates the conditions or practices that could result in injury or loss of life. Caution: Caution indicates the conditions or practices that could result in damage to this product or other property. Terms on the product. The following terms may appear on this product: Danger: It indicates an injury or hazard may immediately happen.
2.Safety Terms and Symbols Warning: The channels should adopt common basis during measuring. To prevent short circuits, the 2 probe ground must not be connected to 2 different non-isolated DC level.
3.Junior User Guidebook 3.
3.Junior User Guidebook Introduction to the Structure of the Oscilloscope This chapter makes a simple description of the operation and function of the front panel of the oscilloscope, enabling you to be familiar with the use of the oscilloscope in the shortest time. Front Panel The front panel has knobs and function buttons.
3.Junior User Guidebook 8. Power on/off Backlight of this button: Red light: The oscilloscope is turned off (connects with AC Power or battery); Green light: The oscilloscope is turned on (powered by AC Power or battery). Front Panel Menu Buttons Remove the left and right menu Select the right menu item Select the bottom menu item Figure 3-2 Menu Buttons Rear Panel 1 2 13 3 12 11 4 5 6 10 9 8 7 Figure 3-3 Rear Panel 1. 2. 3. 4. 5. 6. 7.
3.Junior User Guidebook 8. LAN port: the network port which can be used to connect with PC. 9. USB Device port: It is used to transfer data when external USB equipment connects to the oscilloscope regarded as "slave device". For example: to use this port when connect PC to the oscilloscope by USB. 10. Lock Hole: You can lock the oscilloscope to a fixed location using the security lock (please buy it yourself) to secure the oscilloscope. 11. AV Port: AV signal output port (optional). 12.
3.Junior User Guidebook 5. Vertical control area with 3 buttons and 4 knobs. "CH1" and "CH2 " correspond to setting menu in CH1 and CH2, "Math" button refer to math menu, the math menu consists of six kinds of operations, including CH1-CH2, CH2-CH1, CH1+CH2, CH1*CH2, CH1/CH2 and FFT. Two "Vertical Position" knob control the vertical position of CH1/CH2, and two "Scale" knob control voltage scale of CH1, CH2. 6. Default: Call out the factory settings. 7. Print 8. Counter: Turn on/off the Counter. 9.
3.Junior User Guidebook Auto: Automatic mode and acquire waveform without triggering. Trig: Trigger detected and acquire waveform. Ready: Pre-triggered data captured and ready for a trigger. Scan: Capture and display the waveform continuously. Stop: Data acquisition stopped. 4. Click to show/hide the touchable menu pane (only for touchscreen). (see "Operate the Menu through Touchscreen" on P17) 5. The two blue dotted lines indicates the vertical position of cursor measurement. 6.
3.Junior User Guidebook The reading shows the trigger level value of the corresponding channel. 21. Channel identifier of current bottom menu. 22. The readings show the record length. 23. The frequency of the trigger signal. 24. The readings show current sample rate. 25. The readings indicate the corresponding Voltage Division and the Zero Point positions of the channels. "BW" indicates bandwidth limit. The icon shows the coupling mode of the channel.
3.Junior User Guidebook If there is damage to the instrument caused by the transportation, please keep the package. With the transportation department or the PeakTech distributor responsible for this business informed about it, a repairing or replacement of the instrument will be arranged by the PeakTech. How to Implement the Function Inspection Make a fast function check to verify the normal operation of the instrument, according to the following steps: 1. Connect the power cord to a power source.
3.Junior User Guidebook Check CH2 by repeating Step 2 and Step 3. How to Implement the Probe Compensation When connect the probe with any input channel for the first time, make this adjustment to match the probe with the input channel. The probe which is not compensated or presents a compensation deviation will result in the measuring error or mistake. For adjusting the probe compensation, please carry out the following steps: 1.
3.Junior User Guidebook (1) Push the function menu button of the used channels (CH1 or CH2 button). (2) Select Probe in the bottom menu; select Attenu in the right menu, turn the M knob to select the proper value corresponding to the probe. This setting will be valid all the time before it is changed again. Caution: The default attenuation coefficient of the probe on the instrument is preset to 10X.
3.Junior User Guidebook Warning: To avoid electric shock, always keep your finger behind the safety guard ring of the probe during the operation. To protect you from suffering from the electric shock, do not touch any metal part of the probe tip when it is connected to the power supply. Before making any measurements, always connect the probe to the instrument and connect the ground terminal to the earth.
3.Junior User Guidebook Measuring Skill If the channel is under the DC coupling mode, you can rapidly measure the DC component of the signal through the observation of the difference between the wave form and the signal ground. If the channel is under the AC mode, the DC component would be filtered out. This mode helps you display the AC component of the signal with a higher sensitivity.
3.Junior User Guidebook observe the consequent status information change. Turn the Horizontal Scale knob to change the horizontal time base, and it can be found that the Horizontal Time Base display in the status bar changes accordingly. 2. Use the Horizontal Position knob to adjust the horizontal position of the signal in the waveform window. The Horizontal Position knob is used to control the triggering displacement of the signal or for other special applications.
3.Junior User Guidebook Introduction to the Touchscreen Controls (Optional) If the LCD is touchscreen, you can control the oscilloscope by different gestures. The touchable icon at the top right of the screen is used to enable ( ) or disable ( ) the touchscreen controls. The instruction of touchscreen controls is as below. You can also use the buttons / knobs enclosed in brackets to do the same thing.
3.Junior User Guidebook corresponding channel to make it in selected state. Set the vertical position of the selected channel (Vertical Position knob): Swipe up or down on the screen. Touch to select the channel Control the vertical position of the selected channel Selected Unselected Set the trigger level of the source in trigger menu (Trigger Level knob): Swipe up or down on the area nearby the trigger pointer on the right.
3.Junior User Guidebook Control the horizontal position Double Zoom and Single Zoom In touchable menu pane, if DoubleZoom is selected, in the display area, pinch and spread horizontally to change the time base; pinch and spread vertically to change the voltage division of current channel.
3.Junior User Guidebook Pinch and spread vertically to change the voltage division of current channel Pinch and spread horizontally to change the time base In touchable menu pane, if SingleZoom is selected, click anywhere on the Display area to show the touching control panel.
3.Junior User Guidebook the voltage division of CH1; click on the left lower area to decrease the voltage division of CH1. Click on the right upper area to increase the voltage division of CH2; click on the right lower area to decrease the voltage division of CH2. Set the horizontal time base (Horizontal Scale knob): Click on the left area to increase the voltage division; click on the right area to decrease the voltage division.
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3.Junior User Guidebook Click to increase Click to increase the voltage division of CH1 the voltage division of CH2 Click to increase the time base of Zoom Window Click to decrease the time base of Zoom Window Click to decrease the voltage division of CH1 Click to decrease the voltage division of CH2 (Single Zoom) Other Operations Using Touchscreen Measure with Cursors: Press nearby a cursor line to make it selected, drag it up and down.
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4.Advanced User Guidebook 4. Advanced User Guidebook Up till now, you have already been familiar with the basic operations of the function areas, buttons and knobs in the front panel of the oscilloscope. Based the introduction of the previous Chapter, the user should have an initial knowledge of the determination of the change of the oscilloscope setting through observing the status bar.
4.Advanced User Guidebook How to Set the Vertical System The VERTICAL CONTROLS includes three menu buttons such as CH1, CH2 and Math, and four knobs such as Vertical Position, Vertical Scale for each channel. Setting of CH1 and CH2 Each channel has an independent vertical menu and each item is set respectively based on the channel.
4.Advanced User Guidebook Taking the Channel 1 for example, the measured signal is a square wave signal containing the direct current bias. The operation steps are shown as below: (1) Push the CH1 button to show the CH1 SETUP menu. (2) Select Coupling in the bottom menu. (3) Select DC in the right menu. Both DC and AC components of the signal are passed. (4) Select AC in the right menu. The direct current component of the signal is blocked. 2.
4.Advanced User Guidebook (1) Push the CH1 button to show CH1 SETUP menu. (2) Select Limit in the bottom menu. (3) Select Full band in the right menu. The high frequency of the signal will be allowed to pass. (4) Select 20M in the right menu. The bandwidth is limited to 20 MHz. The frequencies above 20MHz will be rejected.
4.Advanced User Guidebook Switch to select the vertical position or voltage division of the FFT waveform, turn the M knob to adjust it div Vertical v or dB Taking the additive operation between Channel 1 and Channels 2 for example, the operation steps are as follows: 1. Press the Math button to display the math menu in the bottom. The pink M waveform appears on the screen. 2. Select Dual Wfm Math in the bottom menu. 3. In the right menu, select Factor1 as CH1. 4.
4.Advanced User Guidebook ■ There are 6 FFT windows. Each one has trade-offs between frequency resolution and magnitude accuracy. What you want to measure and your source signal characteristics help you to determine which window to use. Use the following guidelines to select the best window. Type Characteristics Window Better solution for magnitude than Rectangle, and good for frequency as well. It has slightly better frequency resolution than Hanning.
4.Advanced User Guidebook The frequency resolution when using the Kaiser window is fair; the spectral leakage and amplitude accuracy are both good. Kaiser Bartlett The Kaiser window is best used when frequencies are very close to the same value but have widely differing amplitudes (the side lobe level and shape factor are closest to the traditional Gaussian RBW). This window is also good for random signals.
4.Advanced User Guidebook Figure 4-1 Information about Vertical Position How to Set the Horizontal System The HORIZONTAL CONTROLS includes the Horizontal HOR button and such knobs as Horizontal Position and Horizontal Scale. 1. Horizontal Position knob: this knob is used to adjust the horizontal positions of all channels (include those obtained from the mathematical manipulation), the analytic resolution of which changes with the time base. 2.
4.Advanced User Guidebook Selected portion Main Window Time base of Zoom window Horizontal position of Zoom window Zoom Window In normal mode, the Horizontal Position and Horizontal Scale knobs are used to adjust the horizontal position and time base of the Main window. In wave zoom mode, the Horizontal Position and Horizontal Scale knobs are used to adjust the horizontal position and time base of the Zoom window.
4.Advanced User Guidebook Two ways to enter trigger mode: Key operation: Press Trigger Menu panel button, then bottom menu Trigger Type, select Single, Logic or Bus Trigger on the popup right menus, rotate M knob to choose different trigger types.
4.Advanced User Guidebook An edge trigger occurs on trigger level value of the specified edge of input signal. Select Edge trigger mode to trigger on rising edge or falling edge. In Edge Trigger mode, the trigger setting information is displayed on bottom right of ,indicates that trigger type is edge, the screen, for example, trigger source is CH1, coupling is DC, and trigger level is 0.00mV.
4.Advanced User Guidebook source is CH1, and Sync type is Even. Video Trigger menu list: MENU SETTING Single Mode Video CH1 CH2 Source EXT EXT/5 Modu Sync NTSC PAL SECAM Line Field Odd Even Line NO.
4.Advanced User Guidebook Set slope condition; turn the M knob or click set slope time, press to panel button or click to move cursor to choose which digit to be Threshold &SlewRate High level Low level Slew rate Auto Normal Single set. Adjust M knob to set the High level upper limit. Adjust M knob to set Low level lower limit.
4.Advanced User Guidebook Select pulse width condition and adjust the M knob or click to set time, press button or click panel to move cursor to choose Auto Normal Single which digit to be set.
4.Advanced User Guidebook Source CH1 CH2 Up Level Select CH1 as the trigger source. Select CH2 as the trigger source. Adjust the M knob or click to set the up level threshold. Threshold Low Level Polarity Adjust the M knob or click to set the low level threshold. Positive Polarity, the oscilloscope triggers on the positive runt pulse. Positive Polarity, the oscilloscope triggers on the negative runt pulse.
4.Advanced User Guidebook windows, trigger source is CH1, polarity is positive, 0.00mV the differential between up level and low level threshold. Windows Trigger menu list: MENU SETTING Single Windows Mode CH1 Source CH2 Up Level INSTRUCTION Set vertical channel trigger type as Windows trigger. Select CH1 as the trigger source. Select CH2 as the trigger source. Adjust the M knob or click to set the up level threshold.
4.Advanced User Guidebook 7.Timeout Trigger The oscilloscope triggers when the time interval from when the rising edge (or the falling edge) passes through the trigger level to when the neighbouring falling edge (or the rising edge) passes through the trigger level is greater than the timeout time set. In Timeout Trigger mode, the trigger setting information is displayed on bottom right ,indicates that trigger type is Timeout, of the screen, for example, trigger source is CH1, polarity is positive, 0.
4.Advanced User Guidebook In Nth Edge Trigger mode, the trigger setting information is displayed on bottom right ,indicates that trigger type is Nth of the screen, for example, Edge, trigger source is CH1, -150V is up level or low level threshold. Nth Edge Trigger Nth Edge Trigger menu list: MENU SETTING Single Nth Edge Mode CH1 Source CH2 Edge Edge Idle Time Configure INSTRUCTION Set vertical channel trigger type as Nth Edge trigger. Select CH1 as the trigger source. Select CH2 as the trigger source.
4.Advanced User Guidebook Auto Normal Single Acquire waveform even no trigger occurred Acquire waveform when trigger occurred When trigger occurs, acquire one waveform then stop Holdoff 100 ns - 10 s, adjust M knob or click Mode Holdoff to set time interval before another trigger occur, press panel button or click Reset move cursor to choose which digit to be set. Set Holdoff time as 100 ns Logic Trigger Trigger according to logic relation.
4.Advanced User Guidebook Auto Normal Single Acquire waveform even no trigger occurred Acquire waveform when trigger occurred When trigger occurs, acquire one waveform then stop Holdoff 100 ns - 10 s, adjust M knob or click Mode Holdoff to set time interval before another trigger occur, press panel button or click Reset move cursor to choose which digit to be set. Set Holdoff time as 100 ns Bus Type 1. SPI Trigger on the specified data when the timeout condition is meet.
4.Advanced User Guidebook M knob or click Current Bit Data All Bits Mode Holdoff Auto Normal Single to set Data Bits. Set the number of the data bits, ranges from 0-31, adjust M knob or click to set Current Bit. Set the value of the current data bit as H,L or X (H or L). Set all the data bits to be the specified value in Data. Acquire waveform even no trigger occurred Acquire waveform when trigger occurred When trigger occurs, acquire one waveform then stop 2.
4.Advanced User Guidebook When another start condition occurs before a stop condition. Trigger when SDA data transitions from low to high Stop while SCL is high. Trigger when SDA data is high during any Ack Lost acknowledgement of SCL clock position. Trigger on the read or write bit when the preset Address address is met. Addr Set Address Bits to be “7”、“8”or“10”. Bits Adr Addr Set address according to the preset address bits, For ess address range is 0-127, 0-255, 0-1023 respectively.
4.Advanced User Guidebook RS232 Trigger RS232 Trigger menu list: MENU SETTING INSTRUCTION Bus Type Input RS232 Sour ce Pola rity CH1 CH2 Nor mal Inve rted Start Error When Chk Error Data Start Configure Error Chk Error Set vertical channel bus type as RS232 trigger. Select CH1 as the trigger source. Select CH2 as the trigger source. Select polarity of data transmission as Normal. Select polarity of data transmission as Inverted. Trigger on the start frame of position.
4.Advanced User Guidebook Data Mode Auto Normal Single Holdoff Data Bits:Set as 5、6、7、8 bits. Data:Set data according to data bits, ranges from 0-31, 0-63, 0-127 or 0-255.
4.Advanced User Guidebook This menu is only for P1360 series. When the sample rate <=250MS/s, ADC resolution is set to 12-bit by default; When the sample rate >250MS/s, and both channels are turned on, ADC resolution is set to 8-bit by default; When the sample rate <250MS/s, and only one channel is turned on, ADC resolution can be set to 8-bit or 12-bit in this menu.
4.Advanced User Guidebook This format is only applicable to Channel 1 and Channel 2. After the XY display format is selected, Channel 1 is displayed in the horizontal axis and Channel 2 in the vertical axis; the oscilloscope is set in the un-triggered sample mode: the data are displayed as bright spots. The operations of all control knobs are as follows: The Vertical Scale and the Vertical Position knobs of Channel 1 are used to set the horizontal scale and position.
4.Advanced User Guidebook Wave Choose the saving type. Configure About the Record type, see "How to Type Record/Playback Waveforms" on P57. Image Record When the type is Wave, the menu shows as following: CH1 Source CH2 Choose the waveform to be saved. Math Choose the address which the waveform is Object 0 - 99 saved to or recall from. Recall or close the waveform stored in the current object address.
4.Advanced User Guidebook Save Save the current display screen. The file can be only stored in a USB storage, so a USB storage must be connected first. The file name is editable. The file is stored in BMP format. Save and Recall the Waveform The oscilloscope can store 100 waveforms, which can be displayed with the current waveform at the same time. The stored waveform called out can not be adjusted. In order to save the waveform of the CH1 into the address 1, the operation steps should be followed: 1.
4.Advanced User Guidebook 3. Select Type in the bottom menu, in the left menu, turn the M knob to select Image. 4. Select Save in the bottom menu, a input keyboard used to edit the file name will pop up. The default name is current system date. The length of file name limits16 characters. Select the key of the keyboard to confirm. USB disk Requirements The supported format of the USB disk: FAT32 file system, the allocation unit size cannot exceed 4K, mass storage USB disk is also supported.
4.Advanced User Guidebook Figure 4-3: Format the USB disk warning 5. Set File System as FAT32, Allocation unit size 4096. Check "Perform a quick format" to execute a quick format. Click OK, and then click Yes on the warning message. Figure 4-4: Formatting the USB disk setting 6. Formatting process.
4.Advanced User Guidebook Figure 4-5: Formatting the USB disk 7. Check whether the USB disk is FAT32 with allocation unit size 4096 after formatting. Use Minitool Partition Wizard to format Download URL: http://www.partitionwizard.com/free-partition-manager.html Tip: There are many tools for the USB disk formatting on the market, just take Minitool Partition Wizard for example here. 1. Connect the USB disk to the computer. 2. Open the software Minitool Partition Wizard. 3.
4.Advanced User Guidebook 5. Set File System FAT32, Cluster size 4096. Click OK. Figure 4-8: Format setting 6. Click Apply at the top left of the menu. Then click Yes on the pop-up warning to begin formatting. Figure 4-9: Apply setting 7. Formatting process Figure 4-10: Format process 8.
4.Advanced User Guidebook Figure 4-11: Format successfully How to Record/Playback Waveforms Wave Record function can record the input current wave. You can set the interval between recorded frames in the range of 1 ms - 1000 s. The max frame number reaches 1000, and you can get better analysis effect with playback and storage function. The storage medium contains two kinds: Internal and External. When the storage medium is Internal, Wave Record contains four modes: OFF, Record, Playback and Storage.
4.Advanced User Guidebook Cur frame Interval Play mode Operate Loop Once Play Stop to playback (1 - 1000) Turn the M knob to select the number of current frame to playback (1 - 1000) Turn the M knob to select the interval between played back frames (1ms - 1000s) Play back the wave continuously Play back the wave just one time Begin to record Stop recording Storage: Save the current wave according to the start frame and end frame set.
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4.Advanced User Guidebook Figure 4-12: Play back waveform by software How to Implement the Auxiliary System Function Setting ●Config Push the Utility button, select Function in the bottom menu, select Configure in the left menu. The description of Configure Menu is shown as the follows: Function Menu Language Set Time KeyLock About Setting Chinese English Others ON Display OFF Hour Min Day Month Year Description Choose the display language of the operating system.
4.Advanced User Guidebook The description of Display Menu is shown as the follows: Function Menu BackLight Setting 0% - 100% Graticule Battery Menu Time Description Turn the M knob to adjust the backlight. Select the grid type ON OFF OFF, 5s - 30s Turn on or off the battery display Set the disappear time of menu ●Adjust Push the Utility button, select Function in the bottom menu, select Adjust in the left menu.
4.Advanced User Guidebook 3. 4. left menu. Select ProbeCh. in the bottom menu, tips about probe checking shows on the screen. Select ProbeCh. again to begin probe checking and the checking result will occur after 3s; push any other key to quit. ● Pass/Fail The Pass/Fail function monitors changes of signals and output pass or fail signals by comparing the input signal that is within the pre-defined mask. Push the Utility button, select Function in the bottom menu, select Pass/fail in the left menu.
4.Advanced User Guidebook means stop once the condition satisfies your setting. 5. Begin to test: Select Operate in the bottom menu, select Operate in the right menu as Start, the test will begin. 6. Save rule: Select SaveRule in the bottom menu. Select the save location in the left menu, and then select Save in the right menu to save the rules, which could be called up at once when need. Select Load to call up the rule saved. Note: 1.
4.Advanced User Guidebook ● LAN Set Using the LAN port or Wi-Fi, the oscilloscope can be connected with a computer. The oscilloscope also supports communications with Android based smart device via Wi-Fi. Refer to "Communication with PC" on P89 and "Communication with Android Device via Wi-Fi (Optional)" on P97for the operation steps. How to Measure Automatically Push the Measure button to display the menu for the settings of the Automatic Measurements.
4.Advanced User Guidebook Measure the period, the frequency of the CH1, following the steps below: 1. Push the Measure button to show the automatic measurement function menu. 2. Select Add in the bottom menu. 3. In the right menu, select CH1 in the Source menu item. 4. In the left Type menu, turn the M knob to select Period. 5. In the right menu, select Add. The period type is added. 6. In the left Type menu, turn the M knob to select Frequency. 7. In the right menu, select Add. The frequency type is added.
4.Advanced User Guidebook Figure 4-14 Mean: The arithmetic mean over the entire waveform. PK-PK: Peak-to-Peak Voltage. RMS: The true Root Mean Square voltage over the entire waveform. Max: The maximum amplitude. The most positive peak voltage measured over the entire waveform. Min: The minimum amplitude. The most negative peak voltage measured over the entire waveform. Vtop: Voltage of the waveform's flat top, useful for square/pulse waveforms.
4.Advanced User Guidebook Figure 4-15 Rise Time: Time that the leading edge of the first pulse in the waveform takes to rise from 10% to 90% of its amplitude. Fall Time: Time that the falling edge of the first pulse in the waveform takes to fall from 90% to 10% of its amplitude. +D width: The width of the first positive pulse in 50% amplitude points. -D width: The width of the first negative pulse in the 50% amplitude points. +Duty: +Duty Cycle, defined as +Width/Period.
4.Advanced User Guidebook reference value to the low reference value in the waveform. : The area of the whole waveform within the screen and the unit is Area voltage-second. The area measured above the zero reference (namely the vertical offset) is positive; the area measured below the zero reference is negative. The area measured is the algebraic sum of the area of the whole waveform within the screen. Cycle Area : The area of the first period of waveform on the screen and the unit is voltage-second.
4.Advanced User Guidebook 2. In the bottom menu, select Source as CH1. 3. Select the first menu item in the bottom menu, the Type menu will display at the right of the screen. In the right menu, select Time&Voltage for Type, two blue dotted lines displayed along the horizontal direction of the screen, two blue dotted lines displayed along the vertical direction of the screen. Cursor measure window at the left bottom of the screen shows the cursor readout. 4.
4.Advanced User Guidebook Auto Cursor Move the cursors by gestures About the gestures for moving cursors, see "Other Operations Using Touchscreen" on P23. The Cursor Measurement for FFT mode: In FFT mode, push the Cursor button to turn cursors on and display the cursor menu.
4.Advanced User Guidebook measurement of math FFT: 1. Press the Math button to display the math menu in the bottom. Select FFT. 2. Push Cursor to display the cursor menu. 3. In the bottom menu, select Window as Extension. 4. Select the first menu item in the bottom menu, the Type menu will display at the right of the screen.
4.Advanced User Guidebook 1. Push the Autoscale button, the function menu will appear. 2. In the bottom menu, select ON in the Autoscale menu item. 3. In the bottom menu, Select Mode. In the right menu, select . 4. In the bottom menu, Select Wave. In the right menu, select . Then the wave is displayed in the screen, shown as Figure 4-17. Figure 4-17 Autoscale Horizontal-Vertical multi-period waveforms Note: 1.
4.Advanced User Guidebook How to Use Built-in Help 1. Push Help button, the catalog will display in the screen. 2. In the bottom menu, press Prev Page or Next Page to choose help topic, or just turn the M knob to choose. 3. Press OK to view the details about the topic, or just push the M knob. 4. Press Quit to exit the help, or just do other operations. How to Use Executive Buttons Executive Buttons include Autoset, Run/Stop, Single, Copy.
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4.Advanced User Guidebook (2) Push the Utility button, select Function in the bottom menu, select Output in the left menu. (3) In the bottom menu, select Device as PICT. (When PC is selected, you can get an image by Oscilloscope software.) (4) In the bottom menu, select Print Setup. In the right menu, set up print parameters. The On selection of Ink Saver will print out a copy with a white background.
5.Use the Arbitrary Function Generator (Optional) 5. Use the Arbitrary Function Generator (Optional) The oscilloscope contains an integrated arbitrary function generator (25 MHz or 50 MHz, dual-channel or single-channel is optional). The function generator provides 4 basic waveforms (sine, square, ramp, and pulse) and 46 built-in arbitrary waveforms (Noise, Exponential rise, Exponential fall, Sin(x)/x, Staircase, etc.). You can create a user-definable waveform and save it to internal storage or USB device.
5.Use the Arbitrary Function Generator (Optional) To Turn On/Off Output of Channels Push or to turn on/off output of the corresponding channel. The indicator will be lighted when the corresponding channel is tuned on. To Set Signals (1) Push (single-channel) or (dual-channel) button to show the bottom menu of generator. (2) Select the desired waveform in the bottom menu, the corresponding menu is displayed on the right. (3) The parameters can be set in the right menu.
5.Use the Arbitrary Function Generator (Optional) Use the touchscreen (Touchscreen is optional): Click to increase the value of cursor position Move the cursor Click to decrease the value of cursor position To Set the Period Select Period in the right menu (if Period is not displayed, select Frequency and select it again to switch to Period). Set the parameter in the right menu.
5.Use the Arbitrary Function Generator (Optional) Output Sine Signals on page 77. To Set the Symmetry of Ramp Select Symmetry in the right menu of Ramp. Set the parameter in the right menu. To Output Pulse Signals The parameters of Pulse waveform are: Frequency/Period, Amplitude/High Level, Offset/Low Level, Pulse Width/Duty. To set the Frequency/Period, Amplitude/High Level, Offset/Low Level, please refer to To Output Sine Signals on page 77.
5.Use the Arbitrary Function Generator (Optional) (4) Turn the M knob to select the desired waveform (or touch if the LCD is touchscreen). E.g. select Noise. Select Select to output the noise waveform. Note: For single-channel, you can push on the front panel to output DC.
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5.Use the Arbitrary Function Generator (Optional) input the value and choose the unit. X1, X1000, Xle6, Xle9 in the keyboard respectively represent 1, 1000, 1000000, 1000000000. The waveform points range is 2 - 8192. (3) Set the interpolation: Select Intrpl in the right menu, choose between On/Off. If you choose On, the points will be connected with beelines; otherwise, the voltages between two consecutive points will not change, and the waveform looks like a step-up one.
5.Use the Arbitrary Function Generator (Optional) up, input the file name, choose as BIN file in the folder. in the keyboard to confirm. The waveform is saved Note: The input length can have up to 35 characters. Clear Switch the case Switch to symbol keyboard Confirm How to Read a Stored Waveform (1) Push (single-channel) or (dual-channel) button. Select Arb in the bottom menu, select Editable on the right menu, and select File Browse.
6.Use the Multimeter (Optional) 6. Use the Multimeter (Optional) Input Terminals The input terminals are on the back of the oscilloscope, which marked as 10A, mA, COM, V/Ω/C. Figure 6-1 Multimeter Input Terminals DMM Menu Push DMM button on the front panel to enter/exit the multimeter function. The button backlight will be lighted when the multimeter function is enabled.
6.Use the Multimeter (Optional) On-off On/Off measurement Hold ON OFF Show Info ON OFF Mode Auto Manu Configure Relative Freeze the display during measurement. Show/Hide the information window Select auto or manual mode When making relative measurements, reading is the difference between a stored reference value and the input signal. Current mA 10A (Only for current measurement) Select the current range.
6.Use the Multimeter (Optional) 4. Reading of measurement 5. The reference value of the relative measurement. 6. Range of measuring current: mA or 10A. 7. AC or DC when measuring current or voltage. Making Multimeter Measurements Measuring AC or DC Current To measure a AC or DC current which is less than 400 mA, do the following: (1) Push DMM button on the front panel. Select Current in the bottom menu, select it again to switch between ACA (AC current ) or DCA (DC current).
6.Use the Multimeter (Optional) (3) Probe the test points and read the display. Measuring Resistance (1) Push DMM button on the front panel. Select R in the bottom menu, select it until switching to R. (2) Connect the black test lead to the COM terminal on the back of the oscilloscope and the red test lead to the V/Ω/C terminal. (3) Probe the test points and read the display. Testing Diodes (1) Push DMM button on the front panel. Select R in the bottom menu, select it until switching to .
6.Use the Multimeter (Optional) (1) Select Configure in the bottom menu, select Show Info in the right menu as ON. The information window will be shown on the display. (2) Select OFF to hide. Auto or Manual Range Auto range is set as default. To switch auto or manual range, do the following steps: (1) Select Configure in the bottom menu, select Mode in the right menu as Manu. MANUAL will be shown on the display. (2) Select Auto to enter auto range, AUTO will be shown on the display.
7.Communication with PC 7. Communication with PC The oscilloscope supports communications with a PC through USB, LAN port or Wi-Fi. You can use the Oscilloscope communication software to store, analyze, display the data and remote control. To learn about how to operate the software, you can push F1 in the software to open the help document. Here is how to connect with PC. First, install the Oscilloscope communication software on the supplied CD. Then there are several ways of connection to choose from.
7.Communication with PC Using LAN Port Connect directly (1) Connection. Plug in the LAN cable to the LAN port in the back of the oscilloscope; plug the other end into the LAN interface of the computer. (2) Set the network parameters of the computer. Since the oscilloscope can not support obtaining an IP address automatically, you should assign a static IP address. Here we set the IP address to 192.168.1.71.
7.Communication with PC Figure 7-3 Set the network parameters of the Oscilloscope Software (4) Set the network parameters of the oscilloscope. In the oscilloscope, push the Utility button. Select Function in the bottom menu. Select LAN Set in the left menu. In the bottom menu, set the Type item as LAN, and select Set. In the right menu, set IP and Port to the same value as the "Ports-settings" in the software in step (3). Select Save set in the bottom menu, it prompts "Reset to update the config".
7.Communication with PC set the IP address to 192.168.1.71, Subnet mask is 255.255.255.0, Default gateway is 192.168.1.1. Figure 7-5 Set the network parameters of the computer (3) Set the network parameters of the Oscilloscope Software. Run the software on the computer; choose the "Ports-settings" of the "Communications" menu item. Set "Connect using" to LAN. About the IP, the first three bytes is same as the IP in the step (2), the last byte should be different. Here, we set it to 192.168.1.72.
7.Communication with PC (4) Set the network parameters of the oscilloscope. In the oscilloscope, push the Utility button. Select Function in the bottom menu. Select LAN Set in the left menu. In the bottom menu, set the Type item as LAN, and select Set. In the right menu, set IP and Port to the same value as the "Ports-settings" in the software in step (3). The Netgate and Net mask should be set according to the router. Select Save set in the bottom menu, it prompts "Reset to update the config".
7.Communication with PC (6) Select Save set in the bottom menu to save current settings. (7) Set Wi-Fi connection on PC. Enter the WIFI settings on PC, select the oscilloscope access point to connect, enter the set password. (8) Set the network parameters of the Oscilloscope Software. Run the software on the computer; choose the "Ports-settings" of the "Communications" menu item. Set "Connect using" to LAN. Set IP and Port to the same value in the oscilloscope in the step (4).
7.Communication with PC (2) (3) (4) (5) Select LAN Set in the left menu. In the bottom menu, set the Type item as WIFI-STA, and select Set in the bottom menu. In the right menu, select SSID, a keyboard will pop up. Input the name of the Wi-Fi hotspot. You can turn and push the M knob, or touch the keyboard (if the LCD is touchscreen). In the right menu, select Encryption, push to set the Encryption type of the Wi-Fi hotspot. Open type needs no password. WEP or WPA type need to input the password.
7.Communication with PC Figure 7-9 Set the network parameters of the computer (8) Set the network parameters of the Oscilloscope Software. Run the software on the computer; choose the "Ports-settings" of the "Communications" menu item. Set "Connect using" to LAN. Set IP and Port to the same value in the oscilloscope. If you can get data normally, the connection is successful.
8.Communication with Android Device via Wi-Fi (Optional) 8. Communication with Android Device via Wi-Fi (Optional) The oscilloscope supports communications with Android based smart device via Wi-Fi. You can use the free application software on the Android based smart devices to view the waveform synchronously, perform remote control, The waveform can be saved as image (BMP, PNG) or file (CSV, BIN), or shared via installed sharing apps. System Requirements of Mobile Devices Android Versions: 4.
8.Communication with Android Device via Wi-Fi (Optional) password. WEP or WPA type need to set the password. You can select WPA. In the right menu, select Password, use the keyboard to set the WIFI password (8 to 32 characters). (4) In the right menu, select IP:PORT, IP is fixed by the oscilloscope, and can not be edited. Turn the M knob to set the PORT. (5) After setting, select ON in the Status menu. The icon appears on the top right of the screen.
8.Communication with Android Device via Wi-Fi (Optional) (10) Set IP and Port to the same value as the setting in the oscilloscope. Click Confirm to connect. Click History to recall the history settings. Connect with APP as Wi-Fi Station (1) In the oscilloscope, push the Utility button. Select Function in the bottom menu. Select LAN Set in the left menu. In the bottom menu, set the Type item as WIFI-STA, and select Set in the bottom menu. (2) In the right menu, select SSID, a keyboard will pop up.
8.Communication with Android Device via Wi-Fi (Optional) (6) Select Save set in the bottom menu to save current settings. (7) In Android device, enter the WIFI settings, select the oscilloscope access point to connect, enter the set password. (8) In Android device, launch the application. (9) Click connect on the left. (10) Set IP and Port to the same value as the setting in the oscilloscope. Click Confirm to connect. Click History to recall the history settings.
8.Communication with Android Device via Wi-Fi (Optional) User Interface Horizontal Position Pointer Touch to enter Trigger Level CH1 (Selected) CH2 Voltage division of CH1 (Colored indicates CH1 is selected.) Voltage division of CH2 (Touch to select CH2, touch again to turn CH2 on/off.) Touch to Time Base & Show/hide stop/continue to Horizontal menu synchronize with (see below) Position the oscilloscope.
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8.Communication with Android Device via Wi-Fi (Optional) Cursor Menu Check to measure time Check to measure voltage The cursor line can be dragged.
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9.Demonstration 9. Demonstration Example 1: Measurement a Simple Signal The purpose of this example is to display an unknown signal in the circuit, and measure the frequency and peak-to-peak voltage of the signal. 1. Carry out the following operation steps for the rapid display of this signal: (1) Set the probe menu attenuation coefficient as 10X and that of the switch in the probe switch as 10X (see "How to Set the Probe Attenuation Coefficient" on P12).
9.Demonstration Figure 9-1 Measure period and frequency value for a given signal Example 2: Gain of a Amplifier in a Metering Circuit The purpose of this example is to work out the Gain of an Amplifier in a Metering Circuit. First we use Oscilloscope to measure the amplitude of input signal and output signal from the circuit, then to work out the Gain by using given formulas.
9.Demonstration Gain = Output Signal / Input signal Gain (db) = 20×log (gain) Figure 9-2 Waveform of Gain Measurement Example 3: Capturing a Single Signal It's quite easy to use Digital Oscilloscope to capture non-periodic signal, such as a pulse and burr etc.
9.Demonstration (9) Select Coupling in the bottom menu. Select DC in the right menu. (10) In the bottom menu, select Slope as (rising). (11) Turn the Trigger Level knob and adjust the trigger level to the roughly 50% of the signal to be measured. (12) Check the Trigger State Indicator on the top of the screen, if it is not Ready, push down the Run/Stop button and start acquiring, wait for trigger to happen.
9.Demonstration (1) Push the Acquire button to display the Acquire menu. (2) Select Acqu Mode in the bottom menu. (3) Select Peak Detect in the right menu. The signal displayed on the screen containing some noise, by turning on Peak Detect function and changing time base to slow down the incoming signal, any peaks or burr would be detected by the function (see Figure 9-4).
9.Demonstration Figure 9-5 Reduce Noise level by using Average function Example 5: Application of X-Y Function Examine the Phase Difference between Signals of two Channels Example: Test the phase change of the signal after it passes through a circuit network. X-Y mode is a very useful when examining the Phase shift of two related signals. This example takes you step by step to check out the phase change of the signal after it passes a specified circuit.
9.Demonstration (8) With the elliptical oscillogram method adopted, observe and calculate the phase difference (see Figure 9-6). The signal must be centered and kept in the horizontal direction. Figure 9-6 Lissajous Graph Based on the expression sin (q) =A/B or C/D, thereinto, q is the phase difference angle, and the definitions of A, B, C, and D are shown as the graph above. As a result, the phase difference angle can be obtained, namely, q =± arcsin (A/B) or ± arcsin (C/D).
9.Demonstration (3) In the left menu, select Video as the mode. (4) Select Source in the bottom menu. Select CH1 in the right menu. (5) Select Modu in the bottom menu. Select NTSC in the right menu. (6) Select Sync in the bottom menu. Select Field in the right menu. (7) Turn the Vertical Scale, Vertical Position and Horizontal Scale knobs to obtain a proper waveform display (see Figure 9-7).
10.Troubleshooting 10. Troubleshooting 1. Oscilloscope is powered on but no Display. Check whether the power connection is connected properly. Check whether the fuse which is beside the AC power input jack is blew (the cover can be pried open with a straight screwdriver). Restart the instrument after completing the checks above. If the problem persists, please contact PeakTech and we will be under your service. 2.
11.Technical Specifications 11. Technical Specifications Unless otherwise specified, the technical specifications applied are for Oscill. series only, and Probes attenuation set as 10X. Only if the oscilloscope fulfills the following two conditions at first, these specification standards can be reached. This instrument should run for at least 30 minutes continuously under the specified operating temperature.
11.Technical Specifications Performance Characteristics Max. input voltage Instruction 1MΩ:≤300 Vrms; 50Ω:≤5 Vrms Bandwidth limit 20 MHz, full bandwidth Channel –channel isolation Time delay between channel(typical) 50Hz: 100 : 1 10MHz: 40 : 1 150ps 0.05 S/s~500 MS/s 8 bits 0.05 S/s~ mode 1 GS/s Single CH 12 bits 0.05 S/s~ mode 500 MS/s 0.05 S/s~500 Dual CH MS/s Dual CH P 1360 Sampling rate range Upcoming Single CH 0.05 S/s~1 GS/s Upcoming Horizontal System Upcoming Dual CH Single CH 0.
11.Technical Specifications Performance Characteristics Instruction Low Frequency ≥5 Hz (at input, AC coupling, -3 dB) Rise time (at input, Typical) P 1360 Upcoming Upcoming Upcoming Upcoming P 1360 DC accuracy ≤ 3.5 ns ≤ 3.5 ns ≤ 1.7 ns ≤ 1.7 ns ≤ 1.17 ns 1 mV 2 mV ≥ 5 mV 3% 2% 1% 3% DC accuracy (average) Average﹥16: ±(3% rdg + 0.
11.Technical Specifications Trigger: Performance Characteristics Instruction Internal ±5 div from the screen center Trigger level range EXT ±2 V EXT/5 ±10 V Internal ±0.
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11.Technical Specifications General Technical Specifications Display Display Type Display Resolution Display Colors 8" Colored LCD (Liquid Crystal Display) 800 (Horizontal) × 600 (Vertical) Pixels 65536 colors, TFT screen Output of the Probe Compensator Output Voltage (Typical ) Frequency (Typical ) About 5 V, with the Peak-to-Peak voltage ≥1 MΩ. Square wave of 1 KHz Power Mains Voltage Power Consumption Fuse Battery (optional) 100V - 240 VACRMS, < 24 W 2 A, T grade, 250 V 3.
12.Appendix 12. Appendix Appendix A: Enclosure Standard Accessories: Power Cord CD Rom Quick Guide USB Cable Probe Q9 Multi-functional Test Socket Battery Soft Bag Probe Adjust Options: Multimeter Lead Appendix B: General Care and Cleaning General Care Do not store or leave the instrument where the liquid crystal display will be exposed to direct sunlight for long periods of time. Caution: To avoid any damage to the instrument or probe, do not exposed it to any sprays, liquids, or solvents.
12.Appendix 2. Disconnect power before cleaning your Oscilloscope. Clean the instrument with a wet soft cloth not dripping water. It is recommended to scrub with soft detergent or fresh water. To avoid damage to the instrument or probe, do not use any corrosive chemical cleaning agent. Warning: Before power on again for operation, it is required to confirm that the instrument has already been dried completely, avoiding any electrical short circuit or bodily injury resulting form the moisture.
