User’s Guide RIGOL Publication number: UGC01106-1110 DM3000 Series Digital Multimeter DM3061/2/4 DM3051/2/4 © 2007 RIGOL Technologies, Inc.
RIGOL z z z z © 2007 RIGOL Technologies, Inc. All Rights Reserved. RIGOL products are protected by patent law in and outside of P.R. China. Information in this publication replaces all previously corresponding material. RIGOL Technologies, Inc. reserves the right to modify or change part of or all the specifications and pricing policies at company’s sole decision. NOTE: RIGOL is registered trademark of RIGOL TECHNOLOGIES, INC. © 2007 RIGOL Technologies, Inc.
RIGOL Safety Notices Review the following safety precautions carefully before operating the instrument to avoid any personal injuries or damages to the instrument and any products connected to it. To avoid potential hazards use the instrument as specified by this user’s guide only. The instrument should be serviced by qualified personnel only. To Avoid Fire or Personal Injury. Use Proper Power Cord. Use the power cord designed for the instrument as authorized in your country only. Ground The Instrument.
RIGOL The disturbance test of all the models meet the limit values of A in the standard of EN 61326: 1997+A1+A2+A3, but can’t meet the limit values of B. WARNING IEC Measurement Category II. The HI and LO input terminals may be connected to mains in IEC Category II installations for line voltages up to 300 VAC. To avoid the danger of electric shock, do not connect the inputs to mains for line voltages above 300 VAC.
RIGOL Safety Terms and Symbols Terms in This Guide. These terms may appear in this guide: ! WARNING: Warning statements identify conditions or practices that could result in injury or loss of life. ! CAUTION: Caution statements identify conditions or practices that could result in damage to this product or other property. ! CAT II (300V): IEC Measurement Category II. Inputs may be connected to mains (up to 300 VAC) under Category II overvoltage conditions.
RIGOL General-Purpose Multimeter The book covers the following description and six models DM3000 Series Digital Multimeter: DM3061, DM3062, DM3064; DM3051, DM3052, DM3054. DM3000 Series Digital Multimeter naming rules: DM 30 6 1 Prefix desktop Digital Multimeter Serial Number 6-6½, 5-5¾ digit No. 1-Basic; 2-LAN/GPIB interface; 4-Inspection plate with the model and LAN/GPIB interface. Application examples: DM3061- 6½ DM3000 series, Basic type.
RIGOL RIGOL DM3000-Series Digital Multimeter is a equipment designed for high-precision, multifunction, automation measurements. The series includes 6½ digits multimeter, with high-speed data acquisition, automatic measurements, multiplexer, mathematical operations, and flexible user sensor configurations etc. Interface includes RS-232, USB, LAN, GPIB for disk storage and print. The DM3000 has a high-resolution monochrome LCD display system for simple waveform display and recording.
RIGOL z z z z 256 x 64 pixel monochrome LCD I/O: RS-232, USB, LAN and GPIB Built-in USB Host to support USB disk and USB printer Simple, convenient, flexible control software: Ultralogger, Ultrasensor and UltraDMM Supports for Microsoft® Windows 98/Me/2000/XP Note: The chapter one, chapter two, chapter three will be described according to 6½ digits. For 5¾ digits, please refer to ‘’Chapter five: Characteristics for DM306x’’. © 2007 RIGOL Technologies, Inc.
RIGOL Content Safety Notices ...........................................................................................II General-Purpose Multimeter ....................................................................... V CHAPTER 1 QUICK START.....................................................................1-1 General Inspection.................................................................................. 1-2 Handle Adjustment ......................................................................
RIGOL Example 5: Limit Test.............................................................................. 3-9 Example 6: Temperature Sensor ............................................................ 3-10 Example 7: Reading Hold ...................................................................... 3-15 CHAPTER 4 PROMPT MESSAGES& TROUBLESHOOTING ...................... 4-1 Prompting Message................................................................................. 4-1 Troubleshooting.................
RIGOL Chapter 1 Quick Start This chapter covers the following topics: General Inspection Handle Adjustment The Front Panel and User Interface To Measure DC Voltage To Measure AC Voltage To Measure DC Current To Measure AC Current To Measure Resistance To Measure Capacitance To Test Continuity To Check Diodes To Measure Frequency and Period To Make an Sensor measurement To Choose Digits resolving index To Choose Data Digit Display To Choose Ra
RIGOL General Inspection Inspect a new DM3000 Digital Multimeter with the following steps: 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. 2. Check the accessories. Accessories supplied with the instrument are listed in "Accessories" at Appendix B of this guide.
RIGOL Handle Adjustment To adjust the handle position of DM3000 Digital Multimeter, please grip the handle by the sides and pull it outward. Then, rotate the handle to the desired position as shown in Figure 1- 1, Figure 1- 2. Figure 1- 1 Figure 1- 2 Viewing Positions and Carrying Position © 2007 RIGOL Technologies, Inc.
RIGOL The Front/Rear Panel and User Interface It is important to get familiar with the front panel of a new DM3000. This chapter gives an introduction of the operation and functions of the Front Panel. The front panel of the DM3000 is user friendly as shown below.
RIGOL Current Input Fuse VMC GPIB (IEEE--488) 10/100 Ethernet Power Socket Differential USB Device RS--232 Power Fuse AC Voltage Multiplexer Interface Selector Ext Trigger Figure 1- 4 The Rear Panel Range Digits resolving index Local/Remote Operation Current Measurement Measurement Data Display Parameters Name Parameters Display Operation Menu Figure 1- 5 The Interface Explanation How the definitions express in this book: In this manual, the regarding keys writing expression has the same log
RIGOL To Measure DC Voltage The following shows the system connections and selection of measurement functions. This practice provides a guide to get familiar with the DC Voltage measurement technique. Figure 1- 6 DC Voltage Measurement Data Interface Table1- 1 DC Voltage Measurement Characteristics Five Ranges 200mV, 2V, 20V, 200V, 1000V Max Resolution 100nV Input Protection 1000V on all ranges (HI Terminal) Configurable Parameters Range, DC impedance, Null value Basic measurement: 1.
RIGOL test leads into circuit and start to measure. DC Voltage Figure 1- 7 DC Voltage Measurement 6. Use history function. Press History, the menu shows as below: Figure 1- 8 The History Data Use the history function to review or save the data that has acquired by the current measurement function. The data can be display “Info” (information), “List” and “HistoG” formats. Press Update softkey to update the History data. Press Save softkey to save data.
RIGOL To Measure AC Voltage The following shows the system connections and selection of measurement functions. This practice provides a guide to get familiar with the AC Voltage measurement technique. (The AC functions only support 5½ digits measurement.
RIGOL (To know the specific setting methods of the Null value setting, please refer to Chapter 2 “To Set Up Measurement Parameters”, Null computing) 6. Lead test leads into circuit and start to measure. AC Voltage Figure 1- 10 AC Voltage Measurement 7. Use history function. Press History, the menu shows as below: Figure 1- 11 The History Data Use the history function to review or save the data that has acquired by the current measurement function.
RIGOL To Measure DC Current The following shows the system connections and selection of measurement functions. This practice provides a guide to get familiar with the DC Current measurement technique. Figure 1- 12 DC Current Measurement Data Interface Table1- 3 DC Current Measurement Characteristics Five Ranges 2mA, 20mA, 200mA, 1A, 10A Max Resolution 10nA Input Protection 10A, 250V Current Input Fuse on rear panel Configurable Parameters Range, Null value Steps: 1.
RIGOL DC Current Figure 1- 13 DC Current Measurement 6. Use history function. Press History, the menu shows as below: Figure 1- 14 The History Data Use the history function to review or save the data that has acquired by the current measurement function. The data can be display “Info” (information), “List” and “HistoG” formats. Press Update softkey to update the History data. Press Save softkey to save data. © 2007 RIGOL Technologies, Inc.
RIGOL To Measure AC Current The following shows the system connections and selection of measurement functions. The practice provides as guide to be familiar with the AC Current measurement technique. (The AC functions only support 5½ digits measurement.
RIGOL demand. If user does not implement Null computing, this parameter is not required, direct implementation of the next step. (To know the specific setting methods of the Null value setting, please refer to Chapter 2 “To Set Up Measurement Parameters”, Null computing) 6. Lead test leads into circuit and start to measure. AC Current Figure 1- 16 AC Current Measurement 7. Use history function.
RIGOL To Measure Resistance The following shows the system connections and selection of measurement functions. The practice provides a guide get familiar with the Resistance measurement technique. Resistance measurement methods include 2-Wire Resistance Measurement and 4-Wire Resistance Measurement, and will explain separately.
RIGOL Null computing will be an option operation, could be setup in accordance with user demand. If user does not implement Null computing, this parameter is not required, direct implementation of the next step. (To know the specific setting methods of the Null value setting, please refer to Chapter 2 “To Set Up Measurement Parameters”, Null computing) 5. Lead test leads into circuit and start to measure. Resistance Figure 1- 19 2-Wire Resistance Measurement 6. Use history function.
RIGOL 4-Wire Resistance Measurement Figure 1- 21 Table1- 6 Resistance Measurement Characteristics Seven Ranges Max Resolution Open-circuit Voltage 200Ω, 2kΩ, 20kΩ, 200kΩ, 1MΩ, 10MΩ, 100MΩ 100uΩ <7V (1). 200VPK Import Protection (2). 1000V on all ranges (HI Terminal) (3). 200V on all ranges (HI Sense, LO Sense) Configurable Parameters Range, Null value Steps: 1. Connect test leads as show in Figure 1- 22; red test lead to the HI Terminal, black test lead to the LO Terminal. 2.
RIGOL 4-Wire Sense HI Resistance 4-Wire Sense LO Figure 1- 22 4-Wire Resistance Measurement 6. Use history function. Press History, the menu shows as below: Figure 1- 23 The History Data Use the history function to review or save the data that has acquired by the current measurement function. The data can be display “Info” (information), “List” and “HistoG” formats. Press Update softkey to update the History data. Press Save softkey to save data.
RIGOL To Measure Capacitance The following shows the system connections and selection of measurement functions. The practice provides a guide to get familiar with the Capacitance measurement technique. Figure 1- 24 Capacitance Measurement Data Interface Table1- 7 Capacitance Measurement Characteristics Six Ranges 2nF, 20nF, 200nF, 2uF, 20uF, 200uF Max Resolution 0.1pF Input Protection 1000V on all ranges (HI Terminal) Configurable Parameters Range, Null value Basic measurement: 1.
RIGOL Capacitance Figure 1- 25 Capacitance Measurement 6. Use history function. Press History, the menu shows as below: Figure 1- 26 The History Data Use the history function to review or save the data that has acquired by the current measurement function. The data can be display “Info” (information), “List” and “HistoG” formats. Press Update softkey to update the History data. Press Save softkey to save data.
RIGOL To Test Continuity The following shows the system connections and the selection of measurement functions. The practice provides a guide to get familiar with the Continuity measurement technique.
RIGOL I Open or Closed Circuit Figure 1- 28 Continuity Measurement © 2007 RIGOL Technologies, Inc.
RIGOL To Check Diodes The following shows the system connections and selection of measurement functions. The practice provides a guide to get familiar with the Check Diodes technique. Figure 1- 29 Check Diodes Interface Table1- 9 Check Diodes Characteristics Tests Current 1mA Max Resolution Range fixed at 2VDC Open-circuit Voltage Input Protection Configurable Parameters <7V 1000V (HI Terminal) 0.1V≤Vmeasured≤2V Steps: 1.
RIGOL 3. Lead test leads into circuit and start to check. I Forward Bias Figure 1- 30 Check Diodes © 2007 RIGOL Technologies, Inc.
RIGOL To Measure Frequency and Period The following shows the system connections and selection of measurement functions. The practice provides a guide to get familiar with the Frequency and Period Measurement technique.
RIGOL 4. Lead test leads into circuit and start to check. AC Signal Figure 1- 32 Frequency Test 5. Use history function.. Press History, the menu shows as below: Figure 1- 33 The History Data Use the history function to review or save the data that has acquired by the current measurement function. The data can be display “Info” (information), “List” and “HistoG” formats. Press Update softkey to update the History data. Press Save softkey to save data. © 2007 RIGOL Technologies, Inc.
RIGOL Period Test Figure 1- 34 Period Measurement Data Interface Table1- 11 Period Test Characteristics Range 200mV, 2V, 20V, 200V, 750V Measurement Range Input Signal Range Import Protection Configurable Parameters 0.33s ~ 3.3us 100mVAC~750VAC 750VRMS on all ranges (HI Terminal) Null value Steps: 1. Connect test leads as Figure 1- 35 shown. Red test lead connects the HI Terminal, Black test lead connects the LO Terminal. 2. Press twice to select the Period Test. 3. Set the Null value.
RIGOL 4. Lead test leads into circuit, start to check. AC Signal Figure 1- 35 Period Test 5. Use history function. Press History, the menu shows as below: Figure 1- 36 The History Data Use the history function to review or save the data that has acquired by the current measurement function. The data can be display “Info” (information), “List” and “HistoG” formats. Press Update softkey to update the History data. Press Save softkey to save data. © 2007 RIGOL Technologies, Inc.
RIGOL To Measure Sensor The DM3000 converts the sensor physical properties into electrical voltage, resistance, current for measurement. So it needs the sensor name, sensor type, sensor physical unit, sensor reference data, and arithmetic. Figure 1- 37 Table1- 12 Sensor Building Options New Newly built sensor reference data file Edit Edit a sensor reference data file Load Load a sensor reference data file Display Set display mode Steps: 1.
RIGOL Figure 1- 39 Press Name button, create a name for the sensor reference name. Figure 1- 40 Press Done button to finish the input work. Press Type button, to select the sensor type, include: DC voltage,DC current,2-wire, 4-wire resistance and frequency. Press Figure 1- 41 button back to the higher level menu. Press Unit button, to select the physical unit, include: ℃, Pa, %, °, and F. Press Figure 1- 42 button back to the higher level menu.
RIGOL Press Add button, to input the Measured and Corresponding value to the reference value data. Figure 1- 44 Figure 1- 45 Figure 1- 46 Press SEG button, you are allowed to segment the reference value with different arithmetic. Press Arith button select the algorithms to Linear or Curvilinear. Figure 1- 47 Figure 1- 48 1-30 © 2007 RIGOL Technologies, Inc.
RIGOL Press return to New interface then press Done button, you have finished the input work, then you can use this sensor reference immediately, or you can save it into the built-in storage space or your U-disk for future work. Figure 1- 49 Press Apply button, to use this reference value file. Press Save to save the file. Figure 1- 50 Press Save button, to finish the save operation. Figure 1- 51 Press Apply button, to start the sensor measurement. Figure 1- 52 (2). (3). (4). (5).
RIGOL Figure 1- 53 The History Data Use the history function to review or save the data that has acquired by the current measurement function. The data can be display “Info” (information), “List” and “HistoG” formats. Press Update softkey to update the History data. Press Save softkey to save data. 4. Lead test leads into circuit, start to check. Sensor Figure 1- 54 Voltage, Resistance, and Frequency Mode Sensor Sensor Figure 1- 55 Current Mode Sensor 1-32 © 2007 RIGOL Technologies, Inc.
RIGOL Figure 1- 56 Choosing interfaces of Measure and Correspond Value © 2007 RIGOL Technologies, Inc.
RIGOL To Choose Reading Resolution The measurement reading resolutions (the accuracy) are 4 1/2, 5 1/2, 6 1/2 digits. Reduce the index Increases the index Figure 1- 57 The Digits Resolution Control Keys Methods: Use the left and/or right direction key to adjust the desired measurement resolution. Press left button to decrease accuracy, press right button to increase accuracy. The digits resolving index Selection (1). Each precision of the measure function can be set separately without influence. (2).
RIGOL To Choose Data Digit Display Function to set up data display format; 5, 6 or 7 digits (Default: 5 digits). Figure 1- 58 7 Digits Data Figure 1- 59 6 Digits Data Figure 1- 60 5 Digits Data NOTE In high-accuracy measurement, if users need to show less data digit, it can show fewer digits for user-friendly reading. © 2007 RIGOL Technologies, Inc.
RIGOL To Choose Range Options Use “manual” selection or “automatic” to choose measurement range. The “automatic” allows the instrument to determine the most appropriate range while for better performance choose the “manual” method. Increased range Automatic selection range Reduced range Figure 1- 61 Choice Range Options Keys Methods 1: Use up and down direction keys to adjust the Range. Press Up to increase the range, press Down to reduce the range. Press key, to select the automatic method.
RIGOL Table1- 13 Choice Range Option Menu Option Menu Explain Auto Start automatically adjustment range, and banned manually adjustment range. Range+ Start manually increased range, and banned automatically adjustment range. Range- Start manually reduced range, and banned automatically adjustment range. Operation description: z When the input signal is beyond the current scope of the measurement range, the multimeter will show “OVER RANGE”.
RIGOL To Control Trigger Options Use or to trigger the multimeter. When the multimeter is powered up, the key will be on, indicating means this function is running. Figure 1- 63 Trigger Control Keys Multimeter triggering options include Automatically, Single and Hold. Auto Triggering key once, it takes continuous readings at the fast rate the specified Press measurement configuration.
RIGOL Chapter 2 Operating Your Multimeter By now the front/rear panel, the function control area and keys, and the ways to set up the multimeter have been introduced. This chapter goes through all groups of front-panel buttons and menus, and extends the knowledge the operation instructions. Follow the exercises to get the most of the powerful measurement capabilities of the multimeter.
RIGOL To Set up Measurement Parameters Press key to enter the Measurement Menu for setting to set up the measurement parameters. Users may use the factory defaults or establish desired configurations. The Measurement parameters Menu includes: Conti, Filter, Res, Null, and Ratio. To change these parameters, satisfy the dissimilar condition of the measurement request. Table 2- 1 Menu Description Function Menu Description Conti Set up the resistance value in continuity test.
RIGOL Continue Resistance Set up the continue resistance value in the short test menu. When the measured resistance is below limit, the DM3000 will beep to indicate the circuit continuation. The continue resistance is only using at Continue Test. Press Æ Conti, enter the menu shown below: Figure 2- 1 Use direction keys to change the parameter values: Press left and right directional keys to choose different digits. Press up and down keys to change the current digit value.
RIGOL AC Filter There are three settings at the AC Filter menu. Choose the appropriate setting for more accurate measurements. This function applies AC Voltage and AC Current measurement only. Press Æ Filter, enter the menu shown below: Figure 2- 2 Table 2- 2 AC Filter Menu Description Function Description Menu Slow Set up the filter with low speed. Mid Set up the filter with to middle speed. Fast Set up the filter with high speed. Save all changes, back to a higher level menu.
RIGOL DC Input Impedance The options of input resistance for DC value measurements are 10MΩ and >10GΩ. For 200mV, 2V, 20V measuring ranges, choose >10MΩ for better result. Press Æ Res, enter the menu shown below: Figure 2- 3 Table 2- 4 DC Input Resistance Menu Description Function Menu 10MΩ >10GΩ Description Set up the DC Input Impedance to 10MΩ. Set up the DC Input Impedance to >10GΩ. Save all changes, back to a higher level menu. DC input resistance selection: (1).
RIGOL Null Measurement The DM3000 null settings is available for DC voltage, AC voltage, DC current, AC current, resistance, frequency/period, and capacitance measurements. With null setting each measurement is the difference between a stored null value and input signal. The null measurement enhance the accuracy by off set test lead impedance. It is particularly important prior for making capacitance measurements.
RIGOL Null measurement parameters setting methods: (1). In operation interface press Null button, use the current value to be Null value. (2). To select null function. Start null function, the multimeter will use the current value to Null value. (3). In Null setting display interface, it uses the Direction Keys to input null value. © 2007 RIGOL Technologies, Inc.
RIGOL Ratio Measurement Use Ratio measurement to measure the ratio of 2 DC voltage signal. Ratio measurement is only for measuring DC voltage. Press Æ Ratio, the display shows: Figure 2- 5 Table 2- 6 Ratio Measurement Menu Description Function Menu Description ON Enable the Ratio Measurement Function. OFF Disable the Ratio Measurement Function. Save all changes, back to a higher level menu.
RIGOL Basic measurement: 1. Connect test leads shown in Figure 2- 6; red test leads to the HI Terminal, black test leads to the LO Terminal. to select the DC Voltage measurement function. 2. Press 3. 4. Choose the appropriate measurement range. Set up the DC Ratio Measurement. Press 5. Æ Ratio Æ On, to start the DC Ratio Measurement. Lead test leads into circuit, start to measure. Signal Voltage Reference Voltage Figure 2- 6 Ratio Measurement © 2007 RIGOL Technologies, Inc.
RIGOL Frequency Measurement Frequency measurement function is used for measuring the frequency of AC signal (voltage and current) only. Press Æ Freq, the display shows: Figure 2- 7 Table 2- 7 Ratio Measurement Menu Description Function Menu Description ON Activate the Frequency Measurement Function OFF Deactivate the Frequency Measurement Function Save all changes, back to a higher level menu. Basic measurement: 1.
RIGOL 5. Lead test leads into circuit, start to measure. AC Voltage Figure 2- 8 AC Current Figure 2- 9 Figure 2- 10 Frequency Measurement Display Interface © 2007 RIGOL Technologies, Inc.
RIGOL Math Functions Press key, the display shows: Figure 2- 11 The DM3000 provides five math functions: Null, statistic, dB, dBm and Limit testing. Only one of these math functions can be enabled at a time, and remains in effect until change. In Math function interface, choose the required math function. Press On to start the Math function. Math functions are the combination of mathematical and the basic measurement operation. However, not all combinations are supported.
RIGOL Table 2- 9 shows the supported combination.
RIGOL Math Functions Selective The DM3000 provides five math functions: Null measurements, Total measurements, dB measurements, dBm measurements, and Limit testing. Only one of these math functions can be enabled at the same time, and remains in effect until you turn it off or change it. Press key, the display shows: Figure 2- 12 Table 2- 10 Math Functions Menu Function Description Function Menu Settings Reading statistic functions, including: Max, Min, Average, and number of measurement.
RIGOL 1. Statistic Measurement The Statistic function is for DC voltage, AC voltage, DC current, AC current, resistance, frequency/period, and capacitance measurement. The front panel can display the statistical data for any set of readings: average (Ave), maximum (Max), minimum (Min), and which can read with All function and the number of samples taken (Total).
RIGOL 2. Limit Measurement Use the Limit test function to perform pass/fail testing with respect to specified upper and lower limits. The limits can be set to any value between 0 and ±120% of the highest range of the current function. The upper limit must be positive than the lower limit. Press Æ Limit, the display shows: Figure 2- 15 Table 2- 12 Limit Measurement Menu Function Description Function Menu Settings Description High Set the desired Upper limit. Low Set the desired Lower limit.
RIGOL 3. dB Measurement The dB function applies to AC voltage and DC voltage measurements only. Each dB measurement is different between the input signal and a stored relative value, with both values converted to dBm. Press Æ dB, enter the menu shown below: Figure 2- 16 Table 2- 13 dB Measurement Function Menu Function Description Function Menu Default Description Use the default value. Save all changes, back to a higher level menu. dB =10xLog10 [ (Reading2 / RREF) / 0.
RIGOL 4. dBm Measurement This function applies to AC voltage and DC voltage measurements only. The dBm function is logarithmic, and is based on a calculation of power delivered to a reference resistance, relative to 1 milliwatt. Press Æ dBm, the display shows: Figure 2- 17 Table 2- 14 dB Measurement Function Menu Function Description Function Menu Default Description Use the default value. Save all changes, back to a higher level menu.
RIGOL To Set Up Triggering Parameter Function The DM3000 triggering system allows generation of triggers either manually or automatically, and taking multiple readings per trigger. The DM3000 also allows setting of an internal triggering level, and to set up pre-triggering. Selecting a Trigger Source Specify the source of a trigger. The power–on default is auto triggering. Other types of triggering are described in the following sections. The power–on trigger default mode was auto trigger (RUN) mode.
RIGOL Auto Triggering Auto triggering takes continuous measurement at the highest sample rate for the specified measurement configuration (function, range, resolution, and so forth). Auto trigger is the default trigger mode at system power up. Press Æ Auto, the display shows: Figure 2- 19 Table 2- 16 Auto Trigger Function Menu Description Function Menu Setting Set interval time in 400~2000ms.* Interval Hold Description ON/OFF Set turn the Reading Hold function ON or OFF.
RIGOL Reading Hold The reading hold mode captures and holds a reading on the front panel display when a stable reading is detected. The system Hold ranges are 0.01%, 0.1%, 1%, and 10%. Press Æ Auto Æ Hold, the display shows: Figure 2- 20 Table 2- 17 Reading Hold Function Menu Description Function Menu Description On/Off Turn on/off the reading hold function. 0.01% Set the hold scope is 0.01%. 0.1% Set the hold scope is 0.1%. 1% Set the hold scope is 1%. 10% Set the hold scope is 10%.
RIGOL Reading Hold Function Start the Reading Hold Function, the hold measurement use the following rules judge the reading count: When Max() - Min() ≤ hold range x ReadingN, the multimeter hold ReadingN on the display.
RIGOL Single Triggering The multimeter takes one reading, or a number of readings specified by a sample count you enter, each time Press press. Æ Single, the display shows: Figure 2- 21 Table 2- 18 Single Trigger Function Menu Description Function Menu Description Single Set a sample count, the default sample count is 1. Save all changes, back to a higher level menu. Sample Count While the multimeter receives a single trigger signal, the multimeter takes one reading or a number of readings.
RIGOL External Triggering is used to set the parameter which initiates the triggering function. It requires to set the following parameter: the Rise edge, the Fall edge, HiLev (high level) and LoLev (low level). Press Done to start the external triggering, the keys and on the front panel will be off to indicate the instrument using external triggering mode.
RIGOL Using the triggering function Auto, hold and Single trigger can switch by using and , press Done button on the triggering interface to startup the external triggering. Figure 2- 23 The Interface of the External Triggering When external triggering start, the key and on the front panel both will be off. © 2007 RIGOL Technologies, Inc.
RIGOL To Set up the VMC At external triggering mode, when the data sampling is over, the instrument outputs a pulse signal at VM Comp located on the rear panel. The output pulse width can be adjusted. Press Æ VMC, the display shows: Figure 2- 24 Table 2- 19 The Explanation of the External Triggering(polarity: positive) Function Menu Setting Explanation Polar Pos Neg Setting the pulse signal’s polarity. PWidth Setting the pulse width. Store the changing and back to the higher menu.
RIGOL Store and Recall To Storage and Recall function enable save, load, and delete the measurement data, parameters and sensor files in the local storage as well as in a USB storage. key, the display shows: Press Figure 2- 25 Table 2- 20 Storage and Recall Function Menu Description Function Menu Disk Type Setting C:\ (Local) A:\ (U-Disk) Sys Setting/ Meas Data/ MEAS_CSV Description Choose Local or U-Disk storage. Choose the type of the files shown. … Read Load the selected file.
RIGOL Local/U-Disk Storage Local storage block is built-in the multimeter. The U-Disk storage will be a USB flash disk. key, enter the menu shown below: Press Figure 2- 26 The U-Disk Storage Interface Table 2- 21 Storage and Recall Function Menu Description Function Menu Setting Description Choose Local storage or U-Disk. Explore Sys Setting/ Meas Data/ MEAS_CSV/ Type LOG_CSV Choose the type of the files shown. Data log/ Sensor/ Sensor Data/ Scan Task Read Load the selected file.
RIGOL Document Storage In local/U-disk storage area, you allowed to save, load and delete parameter, data and sensor documents. Choose the storage area of the files Press Æ Disk, choose Local storage or U-Disk rout. Choose C:\, and the default fype is “SysSetting”.
RIGOL Figure 2- 30 NOTE Store, recall and delete use the same interface. 1) 2) 3) 2-30 To choose different storage locations, Press Disk, to switch the store location (C:\(Local) and A:\(U-Disk)). To choose different files types, Press Type, to switch the file type (Data, Parameter, and Sensor). When the A disk in use, do not remove the U disk. © 2007 RIGOL Technologies, Inc.
RIGOL Document Operation Use the up and down buttons to select the file, then press Read, Save and Erase soft keys to do the corresponding operation. Figure 2- 31 To save the file, name the file with letters and/or numbers. Figure 2- 32 Input Method: 1) Press A/a/1 button to select the Capital letter, Lowercase letter or Numbers. 2) Use the up/down button to close or open the number/letter selection area display. 3) Use the left/right button to move cursor in FileName or number/letter selection area.
RIGOL To Set Up the Utility The Utility function establishes system parameters, interface parameters, and calibration. Figure 2- 33 Table 2- 22 Utility Function Menu Description Function Menu *FPGA Description Update FPGA Programm I/O To set up I/O and LAN parameters. Sys To set up system information configuration. T/C Test and calibration function. *Note:FPGA button shows only when U-disk connencted. 2-32 © 2007 RIGOL Technologies, Inc.
RIGOL Set Up the I/O System Each device on the GPIB (IEEE-488) interface must have a unique address between 0 and 30. The factory set is “1” when shipped. Press Æ I/O, the display shows: Figure 2- 34 Table 2- 23 I/O Setting Function Menu Description Function Menu Description LAN Set up LAN interface. GPIB Set up GPIB I/O interface. USB Check USB interface ID. RS232 Set up RS-232 I/O interface. Save all changes, back to a higher level menu.
RIGOL Set Up LAN I/O Parameter LAN Parameters Following the procedures to set up a LAN configuration and remote interface from the front panel. • • • • • IP Address Subnet Mask Default Gateway DNS Server Host Name Press Æ I/O Æ LAN, the display shows: Figure 2- 35 Table 2- 24 LAN Parameter Function Menu Description Function Menu Setting IP DNS Info Description Set IP address and others information. Host Name/ Domain Name/ DNS address Set the host name. Set the domain name. Set DNS address.
RIGOL IP Settings Press Æ I/O Æ LAN Æ IP, the display shows: Figure 2- 36 DHCP On Figure 2- 37 DHCP Off Table 2- 25 IP Setting Menu Description Function Menu Setting DHCP ON/ OFF Done Description Automatically assigns the IP address Manual assigns the IP address Save all changes, back to a higher level menu. IP address: Suggest you ask you network administrator for a unique IP address .IP address can be saved in non-violet memory.
RIGOL DNS Settings Press Æ I/O Æ LAN Æ DNS, the display shows: Figure 2- 38 Table 2- 26 DNS Setting Menu Description Function Menu Host Setting Description Set the host name. DN Set the domain name. DNS Set the DNS address. Done Save all changes, back to a higher level menu. Host name: Configure the strings of the host name, including letters and numbers. Suggest you ask you network administrator for host name .Host name can be fixed by moving the direction button to choose the letters.
RIGOL Set Up GPIB I/O Parameter Each device on the GPIB (IEEE–488) interface must have a unique address. You can set the address of multimeter to any integral value between 0 and 30. The default address is “1” when the instrument is shipped from the factory. Press Æ I/O Æ GPIB, enter the menu shown below: Figure 2- 39 Table 2- 27 GPIB I/O Setting Function Menu Explanation Function Menu Explanation Save all changes, back to a higher level menu. © 2007 RIGOL Technologies, Inc.
RIGOL Set Up RS-232 I/O Parameters Choose RS-232 (serial data interface) interface. Proper configure the baud rate and parity to make parameters the same as that settled in your computer. Make sure the connection line is unbroken. The configuration is saved in inviolate memory and shown in according menu. Press Æ I/O Æ RS232, enter the menu shown below: Figure 2- 40 Table 2- 28 RS-232 Parameter Function Menu Explanation Function Menu Baud Parity Display 1200 . .
RIGOL System settings Press Æ System, enter the menu shown below: Figure 2- 41 The Interface of Setting the System Function Table 2- 29 System Settings Function Menu Explanation Function Menu Explanation Lang Select the display interface languages. Disp Set up the display. Sound Switch beeper sound On/Off. Clock Set up the benchmark clock. Format Cfg Set up digit display format. Set up or reset the system values. © 2007 RIGOL Technologies, Inc.
RIGOL Select languages DM3000 supports two kinds of languages for users. Press Æ Sys Æ Lang, enter the menu shown below: Figure 2- 42 Table 2- 30 System Settings Function Menu Explanation Function Menu Explanation 中文简 Select the Chinese Simplified. English Select the English. Save all changes, back to a higher level menu. 2-40 © 2007 RIGOL Technologies, Inc.
RIGOL Set Up the Display Press Æ Sys Æ Disp, enter the menu shown below: Figure 2- 43 Table 2- 31 Display Settings Function Menu Explanation Function Menu Explanation Bright Increase or decrease the display light with left and right keys. Contr Increase or decrease the display contrast with left and right keys. Invert Set to invert display mode. Save all changes, back to a higher level menu. © 2007 RIGOL Technologies, Inc.
RIGOL Beeper On/Off Press Æ Sys Æ Sound, enter the menu shown below: Figure 2- 44 Sound On Figure 2- 45 Sound Off 2-42 © 2007 RIGOL Technologies, Inc.
RIGOL Set Up System date/time Press Æ Sys Æ Clock, enter the menu shown below: Figure 2- 46 Data Set Interface Figure 2- 47 Time Set Interface Table 2- 32 Clock Settings Function Menu Explanation Function Menu Explanation Date Set up the date. Time Set up the time. Hide Hide data and time display. Done Save all changes, back to a higher level menu. Back to a higher level menu, without save. © 2007 RIGOL Technologies, Inc.
RIGOL Set Up Digit Format Press Æ Sys Æ Format, and enter the menu shown below: Figure 2- 48 Table 2- 33 Digit Format Function Menu Explanation Function Menu Explanation Radix Point Expresses radix point with Separator Expresses separator with or . , space or none. Save all changes, back to a higher level menu. Figure 2- 49 “ ” radix point, “ ” separator Figure 2- 50 “ ” radix point, none separator Figure 2- 51 “ ” radix point, “space” separator 2-44 © 2007 RIGOL Technologies, Inc.
RIGOL Figure 2- 52“ ” radix point, “space” separator Figure 2- 53 “ ” radix point, none separator Figure 2- 54 “ ” radix point, “ ” separator Notice: The decimal and the separator cannot be the same mode, if the decimal is , then the separator can only be none of space; in contrarily, if the decimal is , then the separator can only be , none of space. © 2007 RIGOL Technologies, Inc.
RIGOL Factory Defaults Setting Press Æ System Æ Cfg Æ Default, then restart the system to factory default state.
RIGOL High-Speed Data Log Factor Defaults Setting Mode Figure Start Delay 0s Start Manual Range Stop Infinity System Operations Factor Defaults Setting * Sound * Open * Separate * Open Language Chinese Display Natural model Clock Time in main interface Error queue Errors cleared Instrument parameter and data no rejigger Interface Factor Defaults Setting * GPIB address *7 * I/O *USB *Baud *9600band *Parity bit * no (8 digits) Calibration Factor Defaults Setting Calibrat
RIGOL High-Speed Data Log High-speed data log features: display mode settings, start acquire mode settings, and end acquires mode settings. When finish all settings, press button to initiate the high-speed data log. Setting high-speed data log parameters Press button, the display shows: Figure 2- 55 The Main Interface of Data Lot Table 2- 35 Data Log Parameter Setting Function Menu Description Function Menu Setting Description Log Gather the data of DCV, DCI, 2WR or 4WR continuously.
RIGOL Table 2- 36 Data Log Menu Description Function Menu Setting Description Sa/s 1/10m 1/5m . . . 50k/s To set the sample rate with 13 values from 1/10m to 50k/s. Start Trig Delay To set the sample manner to be Trig or delay. Stop Timer REC# To set the data measurement stop manner to be timer or counter. Run Start Log the data. Save all the changes, back to a higher level menu. Press Æ Log Æ Sa/s, the interface shows below.
RIGOL Press Æ Log Æ Stop, the interface shows below. Figure 2- 59 The Data Log Stop Manner Setting Interface 2-50 © 2007 RIGOL Technologies, Inc.
RIGOL 1. Data Log rate To set the Data Log sample rate. Press Æ Log Æ Sa/s, the interface shows below. Figure 2- 60 The Data Log Rate Setting Interface Table 2- 37 The Data Log Rate Setting Menu Description Function Menu 1/10m 1/5m . . 50k/s Setting Description To set the sample rate with 13 values from 1/10m to 50k/s. Save all the changes, back to a higher level menu. The system has 13 Data Log rates. © 2007 RIGOL Technologies, Inc.
RIGOL 2. The Data Log Trigger and Delay To set the start condition and the delay time of Data Log. Press Æ Log Æ Start, the interface shows below. Figure 2- 61The Start Condition Setting Interface Table 2- 38 The Start Condition Setting Menu Description Function Menu Setting Trig Manu Ext Delay Description Set trigger: Manual Set trigger: External The time from the start of trigger to the commence of data logging. Save all the changes, back to a higher level menu.
RIGOL External trigger The multimeter receives a trigger signal from the “Ext Trig” at the rear panel. Once at External trigger mode the other trigger is prohibited. Manual trigger Press under the Manual trigger mode to obtain continuous data. The factory default trigger mode is Manual trigger. Start delay The start delay time refers to the time from the first sample to the start of the second sample. Press Æ Log Æ Start Æ Delay, the interface shows below.
RIGOL 3. The Data log stop To set the conditions to stop Data Log. Press Æ Log Æ Stop, the interface shows below. Figure 2- 63 The Stop Condition Menu Interface Table 2- 40 The Stop Condition Menu Explanation Function Menu Setting Explanation Timer To set the time of Data Log, stop the sampling when the time is over. REC# To set the sample points of Data Log, stop the sampling when reach the set number. Infinity To set the Data Log don’t stop sampling until you force to stop the sampling.
RIGOL REC# In Stop menu, press REC# button to set the sample points of Data Log, stop the sampling when reach the set number. Figure 2- 65 The setting scope of REC# is from 1 to 2M points. The default setting is 1,000 points. Infinity In Stop menu, press Infinity button to set the Data Log don’t stop sampling until you force* to stop the sampling. Figure 2- 66 *NOTE: Press button and hold more than two second to stop the sampling of Data Log. This operation is applied to any Data Log stop mode.
RIGOL Multi-Route Scanning Choose , the menu of High-speed data sampling is shown in figure 2-67 Press Scan to set up the multiplexing inspecting function. The Scanning operations include New, Edit and Load, Press Æ Scan, for the Scanning setting menu. The display shows: Figure 2- 67 The Main Interface of Scanning Table 2- 41 The Scanning Menu Description Function Menu Setting Description New Create a new Scan task. Edit Amend a stored Scan task. Load Load a stored Scan task.
RIGOL 1.Create a new patrol inspecting task Press Æ Scan Æ New, the Scanning setting menu shows: Figure 2- 68 The Main Interface of Setting Scanning Table 2- 42 The Scanning Task Menu Explanation Function Menu Setting Create the name of the new Scanning job. Name Task Done Explanation Add the Scanning job one by one. Save Apply Save the setup. Apply the setup. Store the changing and return. © 2007 RIGOL Technologies, Inc.
RIGOL To set up the name of the Scanning task Press Name, and the input interface shown below. Figure 2- 69 Position the cursor at the appropriate field to edit. Press Del, delete the letter on which the cursor sits. Figure 2- 70 Press Done after the name entered for the Scanning task. Figure 2- 71 2-58 © 2007 RIGOL Technologies, Inc.
RIGOL To set up the Scanning task Press Task, enter the main interface to set up the scanning task. Figure 2- 72 Press Add, setting one of the entry in the scanning task. Figure 2- 73 Table 2- 43 The Task Menu Description Function Menu Setting Description Chanl Use the up/down key to select which channel the task will use. Func Select the measure function. Range Select the proper range options. Res Select the digits reading precision. Sa Set the number of the sampling for the task.
RIGOL Press Done, choose Save or Apply to set the needed task. Figure 2- 75 Press Save, and use the up/down key to choose the location for storing the file. Figure 2- 76 Press Save, to input a filename so it can be reviewed in the future. Figure 2- 77 Press Done, when completed. Figure 2- 78 If data saving is not required, press Apply to scan and measure. Figure 2-78 Press Run, start up the current scanning task and begin to measure. 2-60 © 2007 RIGOL Technologies, Inc.
RIGOL Figure 2- 79 Operation hint: 1. The system will exit the scanning function after the task(s) is over and return the function interface. 2. Press and hold for more than 2 seconds to stop. © 2007 RIGOL Technologies, Inc.
RIGOL 2.To Edit the Scanning task Press Edit, enter the task editing interface. Figure 2- 80 Table 2- 44 Function Menu Setting Description Last Edit the scanning task which is created but non-apply. Current Edit the applied scanning task. Store the changing and return. Option Explanation: Last time: If there is some error appears in the operation, thus the new-created scan task interface will be quit and can not return for another task.
RIGOL 3. To load the scanning task Press Load, to load the scan task Figure 2- 81 Use the direction key to locate the scanning task file required, and then press Read. © 2007 RIGOL Technologies, Inc.
RIGOL How to Use the Built-in Help System The built-in help system provides application description of each button on the front panel. Press button, the display shows below: Figure 2- 82 Table 2- 45 Help Function Menu Description Function Menu Select Description To select the help information you want. Move up the cursor and select the help menu. Move down the cursor and select the help menu. Enter the last page help menu. Enter the next page help menu. Back to a higher level menu.
RIGOL 1. Connect the test lead How to connect the lead in different measurements. 2. Measure How many functions can get when using Meas. 3. Math measure How to operate the math measure function when using Meas. 4. Sensor measure How to operate the sensor measure. 5. To set the Data Log How to set the content when using Datalog. 6. Storage and read How to store and read the data/parameter/ sensors/scan task. 7. To set the Utility The method of setting the Utility. 8.
RIGOL Chapter 3 Application Examples Example 1: Reading Statistic Functions How to obtain the statistic of the maximum value read in the measurement. The first reading is taken as the maximum value and being shown on the display. It will be renewed with new maximum value sub sequentially. Do these steps as follows: 1. To measure an AC Voltage. Connect test leads as shown below: AC Voltage Figure 3- 1 Measure AC Voltage 2. Press button, select AC Voltage measurement function.
RIGOL 4. Start Statistical measurement. (1). Press ON, turn on the Statistic measurement function. , finish this setting. (2). Press 5. Lead test leads into the circuit and start to measure. Figure 3- 2 The Statistic Maximum Interface 3-4 © 2007 RIGOL Technologies, Inc.
RIGOL Example 2: Elimination Leads Resistance Error When measuring smaller resistance, the test leads resistance may causes large measurement deviation. Do these steps as follow: 1. To measure an Resistance. Connect test leads as shown below: Resistance Figure 3- 3 Measure Resistance button, select Resistance (2WR) measurement function. Choose an 2. Press 3. appropriate measurement range. Set the Null measurement function parameters. (1). Short circuit the test leads. (2).
RIGOL Example 3: dBm Measurement Do these steps as follow: 1. Connect test leads into the circuit as shown below: Circuit Figure 3- 5 Connect the Test Leads 2. Press button, select Resistance (2WR) measurement function. Choose an appropriate measurement range. Write down the reading count. 3. Press button, select AC Voltage measurement function. Choose an appropriate measurement range. 4. Set the dBm measurement function parameters. (1).
RIGOL Example 4: dB Measurement Do these steps as follows: 1. Connect test leads into the circuit as shown below: Circuit Figure 3- 7 Measure AC Voltage button, select Resistance (2WR) measurement function. Choose an 2. Press appropriate measurement range. Write down the reading count. 3. Press value. 4. Press Æ dBm to set the Resistance measurement value as the dBm setting , save all changes, back to a higher level menu. 5. Press button, select AC Voltage measurement function.
RIGOL 8. Lead test leads into circuit and start to measure. Figure 3- 8 3-8 © 2007 RIGOL Technologies, Inc.
RIGOL Example 5: Limit Test Do these steps as follows: 1. To measure a DC Voltage. Connect test leads as shown below: DC Voltage Figure 3- 9 Measure DC Voltage 2. Press button, select DC Voltage measurement function. Choose an appropriate measurement range. 3. Set the Limit measurement function parameters. (1). Press Æ Limit Æ High, Set up the upper value. (2). Press Æ Limit Æ Low, Set up the lower value. (3). Press , save all changes, back to a higher level menu. 4. Start Limit measurement. (1).
RIGOL Example 6: Temperature Sensor Setting a sensor is the same way of setting up a temperature sensor. So it needs to set the sensor name, sensor type, sensor physical unit, sensor reference data, and mathematical operations. Do these steps as following: 1. Load the PT100 RTD temperature sensor project. The DM3000 has already built-in a temperature sensor project. With this built-in project you can use a temperature sensor convenient. Press Æ Load button, select load function.
RIGOL Press Done button, enter the menu below. Figure 3- 15 Press Apply button, to use the PT100 RTD temperature sensor project. 2. Build a new temperature sensor project. (1). Press button, select the sensor function. Figure 3- 16 (2). Press New Æ Prpty, select the proper function interface. Figure 3- 17 a) Press Name, to input the name of this sensor: SensorT. Figure 3- 18 b) Press Type, to select the type of the sensor: Resistance. Figure 3- 19 © 2007 RIGOL Technologies, Inc.
RIGOL c) Press Unit Æ ℃, select the unit of the sensor: ℃. Figure 3- 20 When finish a proper input, press level menu. (3). to save all the changes and back to a higher Press Define button, the interface shows below: Figure 3- 21 (4). Press Add button, input the first group of reference value: 111.480Ω, 29.5℃. (5). In Define interface, Press SEG Æ Arith Æ Line, Select the arithmetic: Line.
RIGOL Figure 3- 23 It allows deleting and editing the reference values that had been entered, select the group of reference value then press Del or Edit to perform the operations required. When you finish inputting all the data, press and save all the changes, back to a higher level menu. (6). Press Æ Done Æ Apply, save all the data into the local storage, and applies it immediately. Figure 3- 24 (7). a) According to the sensor type, select an appropriate connection method.
RIGOL b) Current sensor: Sensor Figure 3- 26 3-14 © 2007 RIGOL Technologies, Inc.
RIGOL Example 7: Reading Hold Do these steps as follows: 1. To measure a DC Voltage. Connect test leads as shown below: DC Voltage Figure 3- 27 2. Press button, select DC Voltage measurement function. Choose an appropriate measurement range. 3. Set the Hold measurement function parameters. (1). Press (2). Press (3). Press 4. When the Æ Auto Æ Hold Æ 0.1%, set up the hold scope to 0.1%. , to save all changes, back to a higher level menu. , to back to a higher level menu.
RIGOL Chapter 4 Prompt Messages& Troubleshooting Prompting Message 1. Delay time is 400 to 2000ms In trigger setting, the setting value scope of auto trigger delay time is 400~2000ms. 2. No useful Math Currently measurement function is not available for Math function. 3. The range of the short resistance is 1Ω to 2000Ω In continuity measurement, the short-current resistance setting value scope is 1Ω~2000Ω. 4. Sample is 1 to 50,000 Single trigger sampling number scope is 1~ 50,000.
RIGOL 12. DCV is -1200V to 1200V In limit test and null value settings the DC voltage setting value scope is -1200V ~ 1200V. 13. DCI is 0 to 12A In limit test and null value settings the DC current setting value scope is 0~12A. 14. dB is -200dBm to 200dBm In dB measurement function, the dB setting value scope is -200dBm ~200dBm. 15. dBm is 0 to 8000Ω In dBm measurement function, the setting value scope is 0~8000Ω. 16.
RIGOL Troubleshooting 1. (1). (2). (3). (4). (5). When press the power switch, the multimeter has blank screen with nothing displaying: Check if the power is correctly connected. Check if the main power switch on the back panel has been turn on. Check if the safety fuse has been blown, replace with a new one if necessary. Having done with the above steps, restart the instrument. If it still cannot work properly, please contact the local RIGOL Support center, let’s serve for you. 2. (1). (2). (3). (4).
RIGOL To Change the Electric Power Fuse The electric power fuse located in the rear of the Multimeter, the fuse is a kind of delay, no-burst, 250V/300mAT, 5×20mm one. Operation steps 1. Disconnect the power. Use the tool to press down the block (as the dashed line point out), and then pull out the seat of the fuse. 2. Choose the correct voltage shelves location in the voltage selected switches. 3. Enclose the seat of the fuse to the slot after placed the fuse.
RIGOL Chapter 5 Characteristics Characteristics for DM306x DC Characteristics Accuracy Specifications (% of reading + % of range)[1] Temperature Test Current Function [3] Range or Burden Voltage 24 Hour[2] 90 Day 1 Year Tcal±1℃ Tcal±5℃ Tcal±5℃ Coefficient 0 ℃ to (Tcal–5 ℃) (Tcal + 5 ℃) to 55 ℃ DC Voltage 200.0000mV 0.0030+0.0030 0.0065+0.0065 0.0085+0.0070 0.0005+0.0007 2.000000V 0.0020+0.0006 0.0060+0.0007 0.0078+0.0007 0.0005+0.0001 20.00000V 0.0020+0.0004 0.0065+0.0005 0.0085+0.
RIGOL [1] Specifications are for 60 minute warm–up and select resolving index to 6½. [2] Relative to calibration standards. [3] 20% over range on all ranges, except DCV 1000V, ACV 750V, DCI and ACI 10A range. [4] Specifications are for 4–wire resistance function, or 2–wire resistance using Math Null. Without Math Null, add 0.2 Ω additional errors in 2–wire resistance function. [5] For each additional volt over ± 500 VDC add 0.02 mV of error.
RIGOL AC Characteristics Accuracy Specifications (% of reading + % of range)[1] Temperature Function Range[3] [2] Frequency 24 Hour 90 Day 1 Year Coefficient Range Tcal±1℃ Tcal±5℃ Tcal±5℃ 0℃ to (Tcal–5 ℃) (Tcal + 5 ℃) to 55 ℃ 200.000mV True RMS AC Voltage[4] 3Hz-10Hz 5.0+0.05 5.0+0.07 5.1+0.07 0.15+0.006 10Hz-40Hz 0.53+0.05 0.57+0.06 0.60+0.07 0.035+0.004 40Hz-20kHz 0.08++0.05 0.14+0.06 0.15+0.07 0.005+0.004 20kHz-50kHz 0.10+0.05 0.14+0.06 0.16+0.05 0.011+0.
RIGOL [1] Specifications are for 60 minute warm–up and select resolving index to 6½. [2] Relative to calibration standards. [3] 20% over range on all ranges, except DCV 1000V, ACV 750V, DCI and ACI 10A range. [4] Specifications are for sine wave input >5% of range. For inputs from 1% to 5% of range and <50 kHz, add 0.1% of range additional error. For 50 kHz to 100 kHz, add 0.13% of range. 750 Vac range limited to 100 kHz or 8x107 Volt-Hz. [5] Specifications are for sine wave input >5% of range.
RIGOL Frequency Period Characteristics Accuracy Specifications (% of reading)[1] Temperature Function Range[3 [2] Frequency 24 Hour 90 Day 1 Year Coefficient Range Tcal±1℃ Tcal±5℃ Tcal±5℃ 0 ℃ to (Tcal–5 ℃) (Tcal + 5 ℃) to 55 ℃ 200mV [3] to 750V Frequency Period 20mA to 10A [4] 3Hz-5Hz 0.07 0.07 0.07 0.005 5Hz-10Hz 0.04 0.04 0.04 0.005 10Hz-40Hz 0.02 0.02 0.02 0.001 40Hz-300kHz 0.005 0.006 0.007 0.001 3Hz-5Hz 0.07 0.07 0.07 0.005 5Hz-10Hz 0.04 0.04 0.04 0.
RIGOL Capacitance Characteristics Accuracy Specifications (% of reading + % of range)[1] Temperature Function Range[2 Test Current 1 Year Coefficient Tcal±5℃ 0 ℃ to (Tcal–5 ℃) (Tcal+ 5 ℃) to 55 ℃ Capacitance [1] 2.000nF 200nA 2 + 2.5 0.05+0.05 20.00nF 1uA 1 + 0.5 0.05+0.01 200.0nF 10uA 1 + 0.5 0.01+0.01 2.000uF 100uA 1 + 0.5 0.01+0.01 20.00uF 1mA 1 + 0.5 0.01+0.01 Specifications are for 60 minute warm–up using Math Null. Additional errors may occur for non–film capacitors.
RIGOL Measuring Characteristics DC Voltage Measurement Method: Sigma Delta A-to-D converter. Input Resistance: 200mV, 2V, 20V ranges Selectable 10MΩ ± 2% or >10GΩ 200V, 1000V ranges 10MΩ ± 2% Resistance Measurement Method: Selectable 4-wire or 2-wire. Current source referenced to LO input. Open-circuit Voltage: Limit in <7V. Max. Lead Resistance: 10% of range per lead for 200Ω, 1kΩ range. 1kΩ per lead (4-wire ohms) on all other ranges. Input Protection: 1000V on all ranges.
RIGOL Shunt Resistor: 0.025Ω for 1A, 10A, 1.025Ω for 200mA, 11.025Ω for 20mA Input Protection: Externally accessible 10A, 250V fuse Internal 12A, 250V fuse Frequency and Period Measurement Method: Reciprocal-counting technique. AC-coupled input using the ac voltage measurement function. Input Impedance (Voltage Signal):1MΩ ± 2%, in parallel with <100pF Shunt Resistor (Current Signal): 0.025Ω for 1A, 10A, 1.025Ω for 200mA, 11.
RIGOL Inspection Function on Rear Panel (DM3064) Including the models which have LAN/GPIB interface, the voltage limit that the LO terminal relatives to the safety ground is 200Vpeak (Max). Channels: 12 voltage channels, 4 current channels, appending protection. Measurement Functions: 2WR, 4WR, Capacitance, DCV, DCI, ACV, ACI, Continuity, Diodes and Frequency. Work characteristic: The accuracy is the same as measurement on the front panel.
RIGOL General Specifications Display: 256 x 64 pixels LCD to support multi-display, menu, multi-language help and waveform display. Data Acquisition and Virtual: Support Microsoft® Windows 98/Me, Windows 2000/XP Power Supply: 100V/ 120V/ 220V/ 240V ±10% Power Line Frequency: 45Hz to 66Hz Power Consumption: 20VA peak Operating Environment: Full accuracy for 0℃ to 55℃, 95% R.H. at 40℃ non-condensing Storage Temperature: -20℃ to 70℃ Safety: Measurement CAT II 300V, CAT I 1000V.
RIGOL Characteristics for DM305x DC Characteristics Accuracy Specifications (% of reading + % of range)[1] Test Current Function Range[2] or Burden Voltage DC Voltage Coefficient 23℃±5℃ 0 ℃ to 18 ℃ 28 ℃ to 55 ℃ 0.025 + 0.008 0.0015+0.0005 4.00000V 10MΩ or>10GΩ 0.025 + 0.006 0.0010+0.0005 40.0000V 10MΩ 0.025 + 0.006 0.0020+0.0005 400.000V 10MΩ 0.030 + 0.006 0.0020+0.0005 10MΩ 0.030 + 0.005 0.0015+0.0005 2.00000mA <0.03V 0.050 + 0.070 0.0040+0.0070 20.0000mA <0.3V 0.050 + 0.
RIGOL [1] Specifications are for 60 minute warm–up and select resolving index to 5 3/4 and calibration temperature 18 ℃ – 28 ℃. [2] 20% over range on all ranges, except DCV 1000V, ACV 750V, DCI and ACI 10A range. [3] Specifications are for 4–wire resistance function, or 2–wire resistance using Math Null. Without Math Null, add 0.2 Ω additional errors in 2–wire resistance function. [4] For each additional volt over ± 500 VDC add 0.02 mV of error.
RIGOL AC Characteristics Accuracy Specifications (% of reading + % of range)[1] Temperature Function Range[2] Frequency Range 1 Year Coefficient 23℃±5℃ 0 ℃ to 18 ℃ 28 ℃ to 55 ℃ 10Hz-45Hz 1.0 + 0.1 0.02+0.02 45Hz-20kHz 0.2 + 0.1 0.02+0.02 20kHz-50kHz 2.0 + 0.2 0.02+0.02 50kHz-100kHz 4.0 + 0.2 0.02+0.02 10Hz-45Hz 1.0 + 0.1 0.02+0.02 2V to 45Hz-20kHz 0.2 + 0.1 0.02+0.02 750.00V 20kHz-50kHz 1.0 + 0.1 0.02+0.02 50kHz-100kHz 2.0 + 0.2 0.02+0.02 10Hz-45Hz 1.5+0.1 0.02+0.
RIGOL [1] Specifications are for 60 minute warm–up and select resolving index to 5 3/4. [2] 20% over range on all ranges, except DCV 1000V, ACV 750V, DCI and ACI 10A range. [3] Specifications are for sine wave input >5% of range. For inputs from 1% to 5% of range and <50 kHz, add 0.1% of range additional error. For 50 kHz to 100 kHz, add 0.13% of range. 750 Vac range limited to 100 kHz or 8x107 Volt-Hz. [4] Specifications are for sine wave input >5% of range. Add 0.
RIGOL Frequency Period Characteristics Accuracy Specifications (% of reading)[1] Temperature Function Range Frequency 1 Year Coefficient Range 23℃±5℃ 0 ℃ to 18 ℃ 28 ℃ to 55 ℃ 200mV [2] to 750V Frequency Period 20mA to10A[3] 3Hz-5Hz 0.10 0.005 5Hz-10Hz 0.07 0.005 10Hz-40Hz 0.02 0.005 40Hz-300kHz 0.02 0.005 3Hz-5Hz 0.10 0.005 5Hz-10Hz 0.07 0.005 10Hz-10kHz 0.02 0.005 [1] Specifications are for 60 minute warm–up.
RIGOL Capacitance Characteristics Accuracy Specifications (% of reading + % of range)[1] Temperature Function Range[2] Test Current 1 Year Coefficient 23℃±5℃ 0 ℃ to 18 ℃ 28 ℃ to 55 ℃ Capacitance [1] 4.000nF 1uA 2 + 2.5 0.05+0.05 40.00nF 10uA 1 + 0.5 0.05+0.01 400.0nF 10uA 1 + 0.5 0.01+0.01 4.000uF 1mA 1 + 0.5 0.01+0.01 40.00uF 1mA 1 + 0.5 0.01+0.01 200.0uF 1mA 1 + 0.5 0.01+0.01 Specifications are for 60 minute warm–up using Math Null.
RIGOL Measuring Characteristics DC Voltage Measurement Method: Sigma Delta A-to-D converter. Input Resistance: 400mV, 4V ranges Selectable 10MΩ ± 2% or >10GΩ 40V, 400V, 1000V ranges 10MΩ ± 2% Resistance Measurement Method: Selectable 4-wire or 2-wire. Current source referenced to LO input. Open-circuit Voltage: Limit in <7V. Max. Lead Resistance: 10% of range per lead for 400Ω, 1kΩ per lead (4-wire ohms) on all other ranges. Input Protection: 1000V on all ranges.
RIGOL Shunt Resistor: 0.025Ω for 1A, 10A, 1.025Ω for 200mA, 11.025Ω for 20mA Input Protection: Externally accessible 10A, 250V fuse Internal 12A, 250V fuse Frequency and Period Measurement Method: Reciprocal-counting technique. AC-coupled input using the ac voltage measurement function. Input Impedance (Voltage Signal):1MΩ ± 2%, in parallel with <150pF Shunt Resistor (Current Signal): 0.025Ω for 1A, 10A, 1.025Ω for 200mA, 11.
RIGOL Inspection Function on Rear Panel (DM3054) Including the models which have LAN/GPIB interface, the voltage limit that the LO terminal relatives to the safety ground is 200Vpeak (Max). Channels: 12 voltage channels, 4 current channels, appending protection. Measurement Functions: 2WR, 4WR, Capacitance, DCV, DCI, ACV, ACI, Continuity, Diodes and Frequency. Work characteristic: The accuracy is the same as measurement on the front panel.
RIGOL General Specifications Display: 256 x 64 pixels LCD to support multi-display, menu, multi-language help and waveform display. Data Acquisition and Virtual: Support Microsoft® Windows 98/Me, Windows 2000/XP Power Supply: 100V/ 120V/ 220V/ 240V ±10% Power Line Frequency: 45Hz to 66Hz Power Consumption: 20VA peak Operating Environment: Full accuracy for 0℃ to 55℃, 95% R.H. at 40℃ non-condensing Storage Temperature: -20℃ to 70℃ Safety: Measurement CAT II 300V, CAT I 1000V.
RIGOL Chapter 6 Appendix Appendix A: DM3000 Series Accessories Standard Accessories: z A USB Data Wire z A black and one red test Lead Kit (1.6m) z A Power Cord that fits the standard of destination country.
RIGOL Appendix B: Warranty RIGOL warrants that the products that it manufactures and sells will be free from defects in materials and workmanship for a period of three (3) years from the date of shipment from an authorized RIGOL distributor. If a product proves defective within the respective period, RIGOL will provide repair or replacement as described in the complete warranty statement.
RIGOL Appendix C: General Care and Cleaning General Care Do not store or leave the instrument in where the LCD display 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. Cleaning If this instrument requires cleaning, disconnect it from all power sources and clean it with a mild detergent and water. Make sure the instrument is completely dry before reconnecting it to a power source.
RIGOL Appendix D: Contact RIGOL If you have any problem or requirement occurs when using our products, please contact RIGOL Technologies, Inc. or the local distributors. In China: Please call Tel: (86-10) 8070 6688 Fax: (86-10) 8070 5070 Service & Support Hotline: 800 810 0002 9:00 am–5: 00 pm from Monday to Friday Or by e-mail: service@rigol.com Or mail to: RIGOL Technologies, Inc.
