R5001 Manual - Addiss Electric Supply
Contents
1. Range Resolution Cx Accuracy DF Accuracy Measurement Mode 2000 0pF 0 1pF 3 5 x15d 3 5 50d Parallel 20 000nF 1pF 1 0 10d 1 0 50d mas 200 00nF 0 01nF 0 996 10d 0 996 50d zen 2000 0nF 0 1nF 1 0 10d 1 0 50d Series 20 000uF InF 1 2 x15d 1 2 50d Series 200 00uF 0 01uF 2 5 10d 2 5 50d Series 2000F 1uF 4 20d 4 50d Series Frequency 10kHz Range Resolution Cx Accuracy DF Accuracy Measurement Mode 200 00pF 0 01pF 3 0 8d 3 0 50d Parallel 2000 0pF 0 1pF 1 0 10d 1 0 50d 53 20 000nF 1pF 0 9 10d 0 9 50d 200 00nF 0 01nF 0 8 10d 0 8 50d Series 2000 0nF 0 1nF 1 0 8d 1 0 50d Series 20 000uF InF 2 0 8d 2 0 50d Series 200 0uF 0 1uF 4 5 15d 4 5 50d Series Frequency 100kHz Range Resolution Cx Accuracy DF Accuracy Measurement Mode 200 00pF 0 01pF 2 596 x15d 2 596 50d Parallel 2000 0pF 0 1pF 1 0 8d 1 0 50d Parallel 20 000nF 1pF 1 8 8d 1 8 50d Parallel 200 00nF 0 01nF 1 5 10d 1 5 50d Series 2000 0nF 0 1nF 2 5 x15d 2 5 50d Series continued Gls werreedinstrumentscon 7 1 Resistance Ta 18 to 28 C De Frequency 100Hz 120Hz Range Resolution Rx Accuracy Measurement Mode 200 000 0 010 1 2 10d SS 2 0000kO 0 10 0 896 5d 20 000kO 10 0 996 5d SS 200 00kO 0 01kQ 0 796 3d 2 0000MO 0 1kQ 1 096 5d a2. When measuring capacitance selecting the right frequency is important in obtaining the most accurate results Generally a 1kHz test frequency is used to measure capacitors that are 0 01pF or smaller For capacitors that are 10uF or larger a lower frequency of 120Hz is used Following this trend high test frequencies are best for testing very low capacitance components For large capacitance components low frequency would be optimal For example the capacitance of the component is in the mF range when selecting 100Hz or 120Hz for the test frequency it would give more accurate results The results will also be obvious because if the same component was tested with 1kHz or 10kHz the measured readings may look erroneous on the display In all cases it is best to check with the manufacturer s data sheet in order to determine the best test frequency to use for measurement www reedinstruments com 12 Inductance Typically a 1kHz or 10kHz test frequency is used to measure inductors that are used in audio and RF circuits because these components operate at higher frequencies However a 120Hz test signal is used to measure inductors that are used for applications such as filter chokes in power supplies in which are typically operated at 60Hz AC in US with 120Hz filter frequencies In general inductors below 2 mH should be measured at 1kHz frequency while inductors above 200H should be measured at 120Hz In all cases it is best to check w
3. 20 000MO 1kQ 2 2 x10d 200 0MO 0 1MQ 2 5 10d vor Frequency 1kHz Range Resolution Rx Accuracy Measurement Mode 20 0000 1mQ 1 296 10d 200 000 0 010 0 8 5d SES 2 0000kO 0 10 0 896 3d SE 20 000kO 10 0 796 3d 200 00kO 0 01kQ 1 096 5d 2 0000MO 0 1kQ 1 596 10d 20 000MQ 1kO 1 8 10d SC 200 0MO 0 1MO 6 096 50d gt Frequency 10kHz Range Resolution Rx Accuracy Measurement Mode 20 0000 1mQ 1 596 10d Bx 200 000 0 010 0 896 10d 2 0000kQ 0 10 0 9 5d 20 000kQ 10 0 8 3d 200 00kQ 0 01kQ 1 096 5d 2 0000MO 0 1kQ 2 596 10d SS 20 00MO 0 01MO 2 896 x10d Gaa reeuinstruments com o oo Frequency 100kHz Range Resolution Rx Accuracy Measurement Mode 20 0000 1mO 2 396 10d 200 000 0 010 1 5 5d 2 0000kQ 0 10 0 8 20d 20 000kQ 10 0 8 20d 200 00kO 0 01kO 1 596 10d 2 000MO 1kQ 2 5 30d DC resistance Q Ta 18 to 28 C De Frequency 100Hz 120Hz 1kHz 10kHz 100KHz BEWE Resolution Rx Accuracy Measurement Mode 200 000 0 010 1 8 10d see 2 0000kO 0 10 0 696 20d SS 20 000kO 10 0 696 10d zee 200 00kO 0 01kQ 0 596 x3d 2 0000MO 0 1kQ 1 596 5d 20 000MO 1kQ 2 096 x5d 200 0MO 0 1MQ 2 5 5d ans D value Accuracy Ta 18 to 28 C De Freq Z 0 1 10 1 1
4. whether the DUT device under test requires DC or AC resistance measurement method Depending on the method results will vary greatly Guard Terminal One of the input sockets and terminals is labeled as GUARD This terminal does not have to be used in all instances for the meter to make measurements But in some instances it is very useful Guard terminal generally serves two purposes If user is using test leads the guard terminal can be used to connect to the shielding of the test leads Doing so can be useful when making large resistive component measurements For example when measuring a 10 MO resistor with test leads at the high range the reading may seem to be unstable as a few digits may continuously be changing Having the shield of the test leads connected to the guard terminal will help stabilize the reading in some instances Guard terminal is also used to minimize noise and to help minimize para sitic effects coming from the component to be measured thus allowing high precision results Calibration mode It is recommended to calibrate this meter to improve the accuracy of high low impedance measurements You will need a shorting bar or a short piece of conductive metal i e paper clip to complete the calibration procedure Be sure nothing is connected to the meter and turn it on Press and hold down the Calibration Button for 2 seconds to enter calibration mode The screen will display OPEN indicating
5. 00 10 100kO 100k 1MO 1 20MQ 20 200MO 100 120Hz 0 03 0 01 0 009 0 010 0 02 0 04 1kHz 0 03 0 01 0 009 0 010 0 02 0 09 10kHz 0 03 0 01 0 009 0 009 0 01 0 04 100kHz 0 04 0 03 0 010 0 010 0 02 0 04 continued 0 value Accuracy Ta 18 to 28 C Freq Z 0 1 10 10 100kO 100k 1MO 1 20MO 20 200MO 100 120Hz 0 65 0 36 0 23 0 45 0 65 1 35 1kHz 0 65 0 36 0 23 0 45 0 65 3 63 10kHz 0 65 0 36 0 23 0 45 1 35 N A 100kHz 1 27 0 65 0 49 0 65 1 35 1 35 Instrument Description LCD Display Function Button LR Calibration Button Sorting Button Secondary Display Left Button 6 Frequency Button 7 Relative Down Button 8 Power Button 9 Setup Button 10 Auto Power Off Button 11 Up Button 12 Enter 13 Hold Button 14 Parallel Series Right Button 15 Backlight Button 16 Input sockets banana jack inputs and terminals for positive negative and guard Gr Bi uc x ca eo 4 A i i IE Y kalenleon ke jt www reedinstruments com 10 Operating Instructions Power ON OFF Press and hold the Power Button for 2 seconds the LCD screen will light up indicating the unit is on The meter turns on to a default mode of AUTO LCR Sma
6. H 1 5 15d 1 5 50d Parallel 200 00H 0 01H 2 0 10d 2 0 50d Parallel 2000 0H 0 1H 2 5 15d 2 5 50d Parallel continued Gl reedinstruments com 5 Frequency 10kHz Range Resolution Lx Accuracy DF Accuracy Measurement Mode 200 000H 0 01pH 1 8 10d 1 8 50d Series 2000 0uH 0 1uH 1 596 x10d 1 596 50d Series 20 000mH 1uH 1 2 x10d 1 2 50d Series 200 00mH 0 01mH 1 5 15d 1 5 50d 2000 0mH 0 1mH 2 0 10d 2 0 50d Parallel 20 000H 1mH 2 5 x15d 2 5 50d Parallel Frequency 100kHz REOG Resolution Lx Accuracy DF Accuracy Measurement Mode 20 0000H 0 001uH 2 596 10d 2 596 50d Series 200 00uH 0 01uH 1 5 10d 1 5 50d Series 2000 0uH 0 1uH 1 396 15d 1 396 50d Series 20 000mH 1pH 2 0 15d 2 096 50d Parallel 200 00mH 0 01mH 2 596 15d 2 596 50d Parallel Capacitance Ta 18 to 28 C De Frequency 100Hz 120Hz Range Resolution Cx Accuracy DF Accuracy Measurement Mode 20 000nF 1pF 2 5 410d 2 5 50d Parallel 200 00nF 0 01nF 1 2 x10d 1 2 50d sem 2000 0nF 0 1nF 0 996 10d 0 996 50d zs 20 000uF InF 1 0 15d 1 0 50d Series 200 00uF 0 01pF 1 2 10d 1 2 50d Series 2000 0uF 0 1uF 2 5 10d 2 5 50d Series 20 00mF 0 01mF 5 0 10d 5 0 50d Series Gl ewreedinstrumentscn Frequency 1kHz
7. LCR Meter R5001 Instruction EE Manual J www reedinstruments com Table of Contents SDA Eeer EE ank Elten ethaan un PER 3 Ee m H ERTE 3 4 SPECICATION ERE 4 10 Instrument Description 10 Operating Instructlons iere deri eines iis ene 11 18 Power ON OFF EE 11 Auto oc do METTE 11 Function Beep ER 11 BACON zer entend 12 Battery Charge si ete eae 12 Test Frequency Functions esses 12 18 Test Frequency SOIC CL icici ie eer ta tbe Heden ANEN 13 Primary Impedance with Secondary Parameter Test 13 14 Series or Parallel Functions nn annnnennnennennnenreeeneenneereenn 14 15 Series Parallel Measurements e 15 Data 0 0 EE 15 Relative mode 15 16 Accuracy DISCFepahcies EE 16 17 COEN 17 Calibration MOE iier trap oe pe a aen cn tae 17 18 SOMING MOOG arne UH e HURTS ERRARE PEE 18 Battery Replacement eicere i rne dede 19 Safety Do not operate in an explosive atmosphere Do not operate in the presence of flammable gases or fumes Keep away from live circuits Do not remove the instrument cover contact REED Instruments info reedinstruments com for service or calibration on this or any other REED product e This meter is for indoor use altitude up to 2000m This manual should be read and well understood before the instrument is used e When measuring in circuit components first de energize the circuits before conne
8. al Resistance D Dissipation factor Q Quality factor Power Supply 6 x 1 5 AA batteries Dimensions 8 6 x 3 7 x 2 4 220 x 96 x 60mm Weight 0 8lb 3609 Includes TL 88 4 FC 732700 FC 210 FC 209C FC A25 Red amp Black FC AA25 test leads and 6 x 1 5 batteries Accuracy Notes Measurement performed at the test socket Measurements performed after correct open and short calibration DUT and test leads must be properly shielded e Q value is the reciprocal of DF e Accuracies based within 10 to 100 of full scale of range values outside of range should be used as reference only means parallel or series measurement mode Inductance Ta 18 to 28 C De Frequency 100 Hz 120 Hz Range Resolution Lx Accuracy DF Accuracy Measurement Mode 20 000mH 1uH 1 596 x10d 1 5 50d Series 200 00mH 0 01mH 1 496 x15d 1 496 50d Series 2000 0mH 0 1mH 1 596 15d 1 596 50d Series 20 000H 1mH 1 696 x10d 1 696 50d 200 00H 0 01H 1 3 10d 1 3 50d Parallel 2000 0H 0 1H 2 0 15d 2 0 50d Parallel 20 000kH 0 001kH 2 5 15d 2 5 50d Parallel Frequency 1kHz Range Resolution Lx Accuracy DF Accuracy Measurement Mode 2000 Ou O 1uH 1 396 10d 1 396 50d Series 20 000mH 1pH 1 2 10d 1 2 50d Series 200 00mH 0 01mH 1 2 10d 1 2 50d Series 2000 0mH 0 1mH 1 5 15d 1 5 50d 20 000H 1m
9. cting the test leads Do not measure a capacitor that is not fully discharged e When measuring within a circuit the circuit must be de energized before connecting the test leads e Wipe the instrument clean when used in a dusty environment Do not leave the instrument exposed to direct heat for long peri ods of time e Before removing the battery cover ensure that the instrument is disconnected from any circuit and is powered OFF Features Measures inductance capacitance resistance with secondary parameters including dissipation factor D quality factor Q phase angle 0 equivalent series parallel resistance ESR or Rp e Auto ranging operation for AC impedance amp DC resistance measurement Dual LCD display e Auto LCR smart check and measurement e Series Parallel modes e Ls Lp Cs Op with D Q 0 ESR parameters continued RE ER TL CES e Support DCR mode 200 to 200MO Multi level battery voltage detector e Backlight amp function beep e Auto power off Data hold function Specifications Test frequencies 100 120 1k 10k 100kHz Test AC signal level 0 6mVRMS typ Test range F 1kHz L 200uH to 2000H C 2000pF to 2mF R 200 to 200MQ Primary Parameters Display DCR DC resistance Ls Serial inductance Lp Parallel inductance Cs Serial capacitance Cp Parallel capacitance Rs Serial resistance Rp Parallel resistance Second Parameter Display 0 Phase angle ESR Equivalence Seri
10. d value of the DUT is less than 5pF Auto LCR mode only During Auto R Mode or DCR Mode the secondary parameter is not available Device under test display Ditt CH D lo y o Series or Parallel Functions Just as test frequency can greatly affect measurement results selecting between series or parallel measurement mode can also affect the accu racy of the meter especially for capacitive and inductive components Capacitance Most capacitance measurements will obtain best results with parallel mode selected The majority of capacitors have a very low dissipation factor high internal resistance compared to the impedance of the ca pacitance In these cases the paralleled internal resistance has negligible impact upon the measurement There will be some cases where series mode would be used for a capacitance measurement or the readings will appear inaccurate Series mode is useful when large capacitors have higher dissipation factor and lower internal resistance www reedinstruments com 14 Inductance Most inductance measurements will obtain best results with series mode selected In series mode accurate Q quality factor readings can be obtained from reading low Q inductors and ohmic losses are significant There will be some cases where parallel mode would be used for an inductance measurement for example iron core inductors operating at higher frequencies where hysteresis and eddy currents bec
11. de Accuracy Discrepancies In some special cases inaccuracies may occur in the measurement of capacitive inductive and resistive components Capacitance It is strongly recommended to have the dissipation factor low when measuring capacitors Electrolytic capacitors inherently have a higher dis sipation factor due to their normally high internal leakage characteristics In some cases if the D dissipation factor is excessive measurement accuracy may degrade and even read out of specification Inductance Some inductors are intended to operate at a certain DC bias to achieve a certain inductance value however this meter cannot produce such a bias ing scheme External biasing should not be attempted because external power would be applied to the instrument and cause serious damage to the meter Therefore in some cases the inductance reading may not agree with manufacturer s specification It is important to check if the specification pertains to DC biasing or not Resistance When measuring resistance of devices it is important to know that there are two types or ways of measurement One type is DC resistance mea surement Another type is AC resistance measurement The LCR meter provide both of types for measurement www reedinstruments com 16 When measuring a resistive component that is designed to be measured with DC readings will be incorrect or inaccurate Before using the meter to measure resistance please verify
12. ith the manufacturer s data sheet in order to determine the best test frequency to use for measurement Test Frequency Select The meter has five test frequencies 100Hz 120Hz 1kHz 10kHz 100kHz Press the Frequency Button to scroll through the five frequencies sequen tially The test frequency can affect the accuracy of the results depending on what frequency is selected and what type and value of a component is being measured or tested Primary Impedance with Secondary Parameter Test The default test mode for this meter is Auto LCR Mode which checks the type of impedance and automatically enters L C R Mode The secondary parameter will follow the L C R measurement meaning that L Q C D R 0 are combined in one group respectively Press the Function Button to switch from Auto LCR Mode to Auto L Mode Auto C Mode Auto R Mode and DCR Mode When Auto L or Auto C Mode are selected the impedance measurement is auto ranging The primary LCD display will show the inductance or capacitance of DUT device under test the secondary LCD display will show the quality or dissipation factor Press the Secondary Display Left Button to display the D Q 0 ESR value When Auto R ACR mode or DCR mode is selected the secondary parameter is omitted continued www reedinstruments com 13 When Auto LCR mode is active the secondary parameter will show the equivalent resistance in parallel mode Rp to replace the D factor if the C measure
13. ome signifi cant Series Parallel Measurements When any L C R function is selected the default measurement will be automatically selected If the impedance is greater than 10kQ parallel mode will be selected and Lp Cp Rp will display on the LCD screen If the impedance is less than 10kQ series mode will be selected and Ls Cs Rs will display on the LCD When the Parallel Series Right Button is pressed the impedance measurement will be set in series mode or in parallel mode sequentially Data Hold The data hold function allows the user to freeze the current measurement displayed on the LCD Press the Hold Button to activate data hold and press the Hold Button again to deactivate it Relative mode To reserve the current DUT readings DCUR on the primary display as a reference value DREF press the Relative Down Button The symbol A will then appear on the LCD screen indicating this The secondary display will show the percentage of the relative value REL Press the Relative Down Button again to show the reference value DREF on the primary display the A symbol will start to blink REL DCUR DREF DREF x 100 continued www reedinstruments com 15 The percentage range is 99 9 to 99 9 When the relative value is larger than double the reference value DREF the symbol OL will appear on the secondary display Press and hold down the Down Relative Button for 2 seconds to exit relative mo
14. rt Mode with a test frequency of 1kHz Auto power off This feature can be turned on and off by pressing the Auto Power Off Button which will be indicated on the LCD If the meter is actively taking measurements and the impedance changes but no buttons have been pushed for a 5 minute period the meter will turn off after three warn ing beeps If a button is pushed during the three beeps the meter will continue measuring Function Beep This meter will beep once if the function selected is available and beep twice if the function selected is unavailable Active functions Button FUNC HOLD DQO S P BKLIT SORT REL FREQ AUTOLCR L C ACR DCR www reedinstruments com 11 Backlight Press the Backlight Button to turn the backlight on and off The backlight will stay on for 60 seconds before turning off automatically Battery Charge The three horizontal bars above the battery symbol on the LCD screen indicate the charge left in the batteries currently in the meter When the three bars are no longer visible the battery needs replacement please see Battery Replacement for instructions Test Frequency Functions Test frequency can greatly affect the results of measurement reading es pecially when measuring inductors and capacitors This section provides some recommendations and suggestions to consider Capacitance
15. ss Enter to save the value Adjust the tolerance setting by pressing the Up Button Press Enter to save the value The LCD will say PASS or FAIL depending on weather the impedance measured exceeds tolerance range The current measurement result will display on the LCD screen Press the Sorting Button to exit Sorting Mode www reedinstruments com 18 Battery Replacement When the Battery Charge symbol has no lines above it it is time to replace the battery 1 Place the meter upside down Open up the back flip stand remove the battery cover screw and lift up the battery cover 2 Insert 6 1 5V batteries into the battery compartment Be sure to insert the battery with matching polarity 3 Replace the battery cover and battery cover screw Notes www reedinstruments com 19 Notes www reedinstruments com 20
16. the input terminals have nothing connected Press the Calibration Button again and a 30 second count down will appear on the screen After the countdown is complete a PASS or FAIL will show on the display continued www reedinstruments com 17 Press the Calibration Button again and SRT will appear on the LCD screen indicating to the user to put the shorting bar across the and input terminals Press the Calibration Button again and a 30 de countdown will appear on the screen After the calibration procedure is finished a PASS or FAIL will appear on the LCD screen Press the Calibration Button again the data will be saved if PASS was displayed for both the Open amp Short calibrations Open Calibration left and Short Calibration right Sorting mode Sorting mode helps the user quickly sort through multiple components Select the primary measurement mode L C R based on the type of components to be measured Insert the component to be used as the standard or good reference value that will be used for testing against all other components The meter needs a component connected to either the input sockets or terminals for sorting mode to activate Turn the meter on and press the Sorting Button to enter to the sorting mode Press the Setup Button and adjust the range setting by pressing the Up Button Press Enter to save the value Adjust the reference value by pressing the Up Button Pre
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