AstroAI True RMS 6000 Count Digital Multimeter User Manual

AstroAI True RMS 6000 Count Digital Multimeter

Table of Contents

Thank you for purchasing the True RMS 6000 Count Digital Multimeter from AstroAI. The AstroAI True RMS Digital Multimeter is designed to be safely and accurately used by professionals in a commercial setting or weekend DYers who need a little more utility from their standard digital multimeter. This manual provides all safety information, operation instructions, specifications, and maintenance for the meter.

The instrument performs AC/DC Voltage, AC/DC Current, Resistance, Audible Continuity, Diode, hFE, Frequency, Capacitance, and Temperature Testing. Thank you again for choosing AstroAI, if you have any questions or concerns regarding your product, please contact us at support@astroai.com.

NOTE: Read and understand this manual fully before using this Digital Multimeter.
WARNING: To avoid possible electric shock or personal injury, and to avoid possible damage to the Meter or to the equipment being tested, adhere to the following rules:

Before using the Meter, inspect the exterior casing. Do not use the Meter if it is damaged or if all or part of the exterior casing is removed. Look for cracks or missing plastic. Pay special attention to the insulation around the connectors.
Inspect the test leads for damaged insulation or exposed metal. Check the test leads for continuity.
Do not apply more than the rated voltage, as marked on the Meter, between the terminals or between any terminal and grounding.
The manual rotary switch should be placed in the correct position before measurement and should NOT be moved during measurement to prevent damage to the Meter.
When the Meter is working at an effective voltage over 60V in DC or 30V rms in AC, special care should be taken because there is a danger of electric shock.
Use the proper terminals, function, and range for your measurements.
Do not use or store the Meter in a high-temperature environment, and do not expose it to high levels of humidity, or near strong magnetic fields. The performance of the Meter may deteriorate after dampening.
When using the test leads, keep your fingers behind the finger guards.
Disconnect circuit power and discharge all high-voltage capacitors before testing resistance, continuity, diodes or hFE.
Replace the battery as soon as the battery indicator appears. With a low battery, the Meter might produce false readings that can lead to electric shock and personal injury.
Remove the connection between the testing leads and the circuit being tested, and turn the Meter power off before opening the Meter case.
When servicing the meter, use only the same model number or replacement parts with identical electrical specifications.
The internal circuit of the Meter shall not be altered at will to avoid damage of the Meter and any accident.
Clean the surface of the meter using a soft cloth and mild detergent. Do not use abrasive materials or solvents to prevent the surface of the Meter from corrosion and damage.
Turn the Meter off when not in use and take out the battery when it is not going to be used for an extended period of time. Regularly check the battery as it may leak when it has not been used for some time. Replace the battery as soon as leaking appears. A leaking battery will damage the Meter.

ELECTRICAL SYMBOLS

SPECIFICATIONS

Digital Display	5 ¾ , 5999
Sampling Speed	2 times per second
LCD Size	64 x 42mm
Range Selection	Auto or Manual
Polarity Indication	Yes
Overload Indication	Yes
Low Battery Indication	Yes

Operating Environment	32°F~104°F (0°C~40°C); <80% RH
Storage Temperature	14°F~122°F (-10°C~50°C); <85% RH
Power	1 x 9V 6F22 Battery Included
Dimensions	190x90x35mm
Weight	Approx 357g

Temperature Test	Yes
Transistor Test	Yes
Diode Test	Yes
Continuity Test	Yes
External Current Test	Yes
Capacitance	Yes
Frequency	Yes

Safety/Compliances	EN 61010-1 CAT III 600V, CATII 1000V
DC Voltage	600mV6 ±(0.8%+5), V/60V/600V ±(0.8%+3), 1000V ±(1%+5)
AC Voltage	600mV ±(1.2%+8); 6V/60V/600V ±(1.2%+6); 750V ±(1.2%+8)
Temperature	-40°C~1370°C; -40°F~2000°F (1-5%+4 depending on temp)
DC Current	600μA/6000μA/60mA/600mA ±(0.8%+5); 6A/10A ±(1.5%+3)
Transistor hFE	PNP & NPN (lb≈2μA; Vce≈1V)
Resistance	600Ω/6KΩ/60KΩ/600KΩ/6MΩ ±(1.5%+3); 60MΩ ±(1.5%+5)
Capacitance	60nF/600nF/6μF/60μF/600μF/60mF
Frequency	0~60MHz ±(1%+5)

Accuracy is guaranteed for 1 year when stored at 73°F ±9°F

MULTIMETER DIAGRAM

Magnetic Hanger
LCD Screen
Function Buttons
Rotary Function Switch
10A Terminal
μA/mA Terminal
COM Terminal
INPUT Terminal
Silicone Sleeve
Multi-Function Socket

LCD SCREEN DIAGRAM

GETTING TO KNOW YOUR DEVICE

Select Button

When using the rotary switch to select a multimeter function, use the Select Button to further select the function. This applies only to multifunction settings like the temperature and test functions.

Button

Hold and backlight function button. When taking a measurement, press this button to hold the data for easier recording. Press the button again to remove the hold function. Press and hold this button to turn on the backlight on the LCD screen.

Max/Min Button

When taking a measurement, press this button once to enter “Max Mode”. In this mode, the multimeter will capture the highest reading it records. Press this button again to enter “Min Mode” which will capture the lowest reading it records. Press and hold this button to exit the Max/Min Modes.

Range Button

AC/DC Voltage, AC Current, and Resistance can all be measured in both Auto and Manual ranges. The multimeter will come set to Auto, but if you desire to select the range manually, press the Range Button repeatedly to find the desired range. Beware of selecting a range too low, as it will Overload the device and the multimeter will not give a reading. Press and hold the Range Button to return back to Auto Ranging.

Relative Button

When taking measurements, you can utilize the Relative Button to get more accurate readings by removing the resistance of the test leads, for example. To activate this function, simply press the Relative Button. A small triangle (delta symbol) will appear on the display and the reading should change to zero.
Press the Relative Button again to exit relative mode.

Hz/Duty Button

When using the Hz/Duty Cycle function on the multimeter, quickly switch between functions by pressing this button. You can also switch to measuring Hz while measuring other functions, like Voltage, for example, by pressing this button during measurement.

Clamp Meter Attachment (Not Included)

Use a clamp meter attachment to measure currents, use the COM terminal for the black lead from the clamp meter and the Input terminal for the red lead from the clamp meter.

Multi-Function Socket (Included)

Use the multi-function socket to measure both Capacitors and Transistors. Be sure to correctly insert the multi-function socket into the COM and INPUT. the negative terminal on the multifunction socket on the left side and the positive on the right side.

DETAILED SPECIFICATIONS

Accuracy is guarantied for 1 year 23°C±5°C less than 80%RH

DC Voltage (Auto-ranging)

Range	Resolution	Accuracy
600mV	0.1mV	±(0.8% of rdg + 5dgts)
6V	1mV	±(0.8% of rdg + 3dgts)
60V	10mV
600V	100mV
1000V	1V	±(1.0% of rdg + 5dgts)

Input Impedance: 10MΩ
Overload Protection: 600V DC/AC RMS
Max. Input voltage: 600V DC
Measure DCV 1000V under CATII

AC Voltage (Auto-ranging)

Range	Resolution	Accuracy
600mV	0.1mV	±(1.2% of rdg + 8dgts)
6V	1mV	±(1.2% of rdg + 6dgts)
60V	10mV
600V	100mV
750V	1V	±(1.2% of rdg + 8dgts)

Input Impedance: 10MΩ
Frequency Range: 40Hz ~ 400Hz
Overload Protection: 600V DC/AC rms
Measure AC V 750V under CATII CAT III
Max. Input voltage: 600V AC RMS CATIII

Temperature

Range	Resolution	Accuracy
-40~1370°C	1°C	-40°C~150°C:±(1% + 4)
-40°F~302°F	1°F	±(5% + 4)
302°F~2000°F	1°F	±(2.5% + 3)

Overload Protection: F0.4A/600V Fuse

DC Current

Range	Resolution	Accuracy
600µA	0.1µA	±(0.8% of rdg + 5dgts)
6000µA	1µA
60mA	10µA
600mA	100µA
6A	1mA	±(1.5% of rdg + 3dgts)
10A	10mA	±(1.5% of rdg + 3dgts)

Overload Protection:

“mA” Jack: F0.4A/600V fuse
“10A” Jack: F10A/600V fuse

Max.Input Current:

“mA” jack: 600mA
“10A” jack: 10A(For measurements >5A: Duration <10 seconds, interval >15 minutes)

Voltage Drop:

600μA, 60mA: 60mV，
6000μA, 600mA and 10A ranges: 600mV

Transistor hFE Test (Connect Adapter )

Range	hFE	Test Current	Test Voltage
PNP & NPN	0~1000	Ib≈2µA	Vce≈1V

AC Current

Range	Resolution	Accuracy
600µA	0.1µA
6000µA	1µA	±(1.5% of rdg +8dgts)
60mA	10µA
600mA	100µA
10A	100mA	±(2.0% of rdg +10dgts)

Overload Protection:

“mA” jack: F0.4A/600V fuse
“10A” jack: F10A/600V fuse Max.

Input Current:

“mA” jack: 400mA
“10A” jack: 10A (For measurements>5A: duration<10 seconds, interval >15 minutes)

Voltage Drop:

600μA, 60mA ranges: 60mV
6000μA, 600mA and 10A ranges: 600mV

Frequency Range: 40Hz ~ 400Hz

Resistance (Auto Ranging)

Range	Resolution	Accuracy
600Ω	0.1Ω	±(1.5% of rdg + 3dgts)
6KΩ	1Ω
60KΩ	10Ω
600KΩ	100Ω
6MΩ	1KΩ
60MΩ	10KΩ	±(1.5% of rdg + 5dgts)

Open Circuit Voltage: about 0.25V
Overload Protection: 250V DC/AC RMS

600A AC current through a clamp (DT3303 optional)

600A

1mV/10A

±(2.5%+10)

200A

1mV/1A

Diode and Continuity

Overload Protection: 250V DC/AC rms

For continuity test: When the resistance is between 30Ω and 70Ω, the buzzer may sound or may not sound. When the resistance is more than 70Ω, the buzzer will not sound

Capacitance

Range	Resolution	Accuracy
60nF	10pF	±(8% of rdg + 5dgts)
600nF	100pF
6uF	1nF
60uF	10nF
600uF	100nF
20uF	10uF

Overload Protection: F0.4A/600V fuse
Open circuit voltage: about 0.5V

Frequency (Auto Ranging)

Range	Accuracy
0~60MHz	±(1.0% + 5)

OPERATING INSTRUCTIONS

Voltage Measurement

Connect the black test lead to the “COM” jack and the red test lead to the “INPUT ” jack.
Set the function switch to the V∼orrange. Choose either Auto or Manual range using the “Range” Button.
In manual range, if the voltage magnitude to be measured is unknown beforehand, select the highest range.
Connect the test leads to the source or load to be measured.
Read LCD display. The polarity of the red lead connection will be indicated when making a DC measurement.

Note:

When measuring small ranges, the multimeter’s display will sometimes show an unstable result if the test leads are not connected to the load being measured. This is normal and will not affect measurements.
In manual range, when the multimeter shows “OL” or Over Range, you must select a higher range in order to get results.
To avoid damage to the meter, do not measure voltage exceeding 600V DC or 600V AC CATIII.

Current Measurement

Connect the black test lead to the “COM” jack. If the current to be measured is less than 600mA, connect the red test lead to the “mA” jack. If the current is between 600mA and 10A, connect the red test lead to the “10A” jack instead.
Set the function switch to the necessary range (μA, mA, or A). If the current magnitude to be measured is not known beforehand, set the function switch to the highest range and then reduce it range by range until a satisfactory resolution is obtained.
Select DC current measurement or AC current measurement with the “Select” Button.
- There is no option to change between manual and automatic ranges for current measurements.
Connect the test leads to the source or load to be measured.
Read LCD display. The polarity of the red test lead will be indicated.

Resistance Measurement

Connect the black test lead to the “COM” jack and the red test lead to the “INPUT ” jack.
Set the function switch torange.
Select either Auto or Manual range with the “Range” button. In manual range, if the Resistance magnitude to be measured is not known beforehand, select the highest range.
Connect the test leads to the source or load to be measured.
Read LCD display. The polarity of the red test lead will be indicated.

Note:

For resistance measurements >1MΩ, the meter may take a few seconds to stabilize the reading. This is normal for high-resistance measurements.
When the input is not connected, i.e. at an open circuit, the symbol “OL” will be displayed as an over-range indicator.
Before measuring in-circuit resistance, be sure that the circuit under test has all power removed and all capacitors are fully discharged.

Continuity Test

Connect the black test lead to the “COM” jack and the red test lead to the “INPUT ” jack.
Set the function switch torange.
Press the “Select” Button to select continuity measurement mode, and the symbol “ ” will appear on the display.
Connect the test leads across the load to be measured.
If the circuit resistance is lower than about 30Ω, the built-in buzzer will sound.

Diode Test

Connect the black test lead to the “COM” jack and the red test lead to the “INPUT ” jack.
Set the function switch torange.
Press the “Select” Button to select continuity measurement mode, and the symbolwill appear on the display.
Connect the red test lead to the anode of the diode to be tested and the black test lead to the cathode.
The meter will show the approximate forward voltage of the diode. If the connections are reversed, “OL” will be shown on the display.
- In this case, simply switch the test leads from the anode to the cathode and vice versa.

Transistor Test

Set the function switch to“hFE ”range.
Connect the multi-function socket to the “COM” and “INPUT” Jacks. The negative side of the socket must meet COM and the positive to INPUT. It is very important not to reverse these by mistake.
Identify whether the transistor is NPN or PNP type and locate the Emitter, Base and Collector lead. Insert the leads of the transistor to be tested into the proper holes of the transistor test socket of the adapter.
Read the LCD display for the approximate hFE value.

Temperature Measurement

Set the function switch to the “ºC/ºF” range.
Use the Select Button to choose either Celsius or Fahrenheit.
Insert the negative (black) plug of the K-type thermocouple to the COM Jack and the positive (red) plug into the INPUT Jack.
Carefully touch the end of the thermocouple to the object being measured.
Wait for the temperature reading to settle, then record the result from the LCD display.

Capacitance Measurement

Set the function switch torange.
Connect the multi-function socket to the “COM” and “INPUT” Jacks. The negative side of the socket must meet COM and the positive to INPUT. It is very important not to reverse these by mistake.
Place the capacitor into the multifunction socket with the positive end in the positive (INPUT) side of the multifunction socket and the negative end of the capacitor in the negative (COM) terminal of the multifunction socket.
The results will be displayed on the LCD display.
If your Capacitor’s legs are too short to be used with the multifunction socket, use the test leads:
1. Connect the black test lead to the “COM” jack and the red test lead to the “INPUT” jack.
2. Set the function switch torange.
3. Connect the test leads to the capacitor to be measured. Be sure to be aware of the polarity of the connection.

Note:

When the capacitance under-measure is more than 600uF, it needs at least 10 seconds to make readings stable.

Frequency Measurement

Set the function switch to the “Hz Duty” position.
Connect the black test lead to the “COM” jack and the red test lead to the “INPUT ” jack.
Connect the leads to what is being measured, then get the results on the LCD screen.

Note:

Do not apply more than 250V RMS to the input.

Current Measurement (with Clamp attachment)

To measure current with a clamp, use either a clamp specifically made for DC current or AC current.
Connect the negative output lead of the clamp to the COM Jack and the positive output lead to the INPUT Jack.
Set the function switch torange.
Clamp the circuit to be measured with the clamp.
The results will be displayed on the LCD display.

Note:

Each time a measurement is taken, make sure that only one cable is clamped and is in the center of the clamp jaws.
The clamp can only test for up to 600A, do not test circuits higher than 600A.
Do not touch the circuit with your hand or skin.
The multimeter assumes a clamp has a sensitivity of 1A/1mV. The indicated value is the same as the measured value for clamps with 1A/1mV.
- If you use a clamp whose sensitivity does not equal 1mV/1A, multiply the present reading by a factor that is determined by the used clamp, the result is the measured value. To determine the factor, please refer to the instructions of the clamp which you use.

Auto Power Off

The meter will power off after approximately 15 minutes of inactivity. To turn it on again, turn the rotary function switch, or press the “Select” or “Range” button for more than 2 seconds.

Battery Replacement

If thesymbol appears on the display, the battery should be replaced immediately. Remove the rubber sleeve and the screws on the back of the multimeter to replace the battery. Replace with NEDA 1604, 6F22, or equivalent 9V battery. Disconnect the test leads before opening the back of the multimeter.

Fuse Replacement

Fuses will rarely need replacement and are normally only blown due to operator error. To replace the fuses, open the battery cover by removing the rubber sleeve as well as the screws on the back of the multimeter. Disconnect the test leads before opening the back of the multimeter. Replace the damaged fuse with a new one with the same ratings. This meter uses two fuses:

Fuse1: 400mA, 600V, FAST, Min. Interrupt Rating 20000A, Ø10X38mm
Fuse 2: 10A, 600V, FAST, Min. Interrupt Rating 20000A, Ø10X38mm

ACCESSORIES

1 x Owners Manual
1 x Pair of Test Leads
1 x K-Type Thermocouple
1 x Multi-Function Socket

DISPOSAL OF THIS ARTICLE

If you at some point intend to dispose of this article, please keep in mind that many of its components consist of valuable materials, which can be recycled. Please do not discard it in the garbage bin, but check with your local authorities for recycling facilities in your area.

1 Year Warranty Limited Warranty From AstroAI
Each AstroAI Digital Multimeter will be free from defects in material and workmanship. This warranty does not cover fuses, disposable batteries and damage from neglect, misuse, contamination, alteration, accident, or abnormal conditions of operation or handling, including overvoltage failures caused by use outside the Multimeter’s specified rating, or normal wear and tear of mechanical components. This warranty covers the original purchaser only and is not transferable.

If this product is defective, please contact AstroAI Customer Support at support@astroai.com.

For more manuals by AstroAI, visit ManualsLibraryy

AstroAI True RMS 6000 Count Digital Multimeter-FAQs

What is a True RMS digital multimeter?

A True RMS multimeter can accurately measure both perfect sinusoidal waves and non-sinusoidal waves, providing more accurate readings for complex waveforms. “RMS” stands for root-mean-square, which calculates the equivalent DC value of an AC waveform.

How do I set my digital multimeter?

Set your multimeter dial to either AC or DC voltage before measuring. Use the “V” symbol with a wavy line above it for AC voltage, and the “V” symbol with a solid and dashed line for DC voltage.

What should the voltage of a car battery be?

A fully charged car battery should show around 12.6 volts when the engine is off (resting voltage). When the engine is running, the voltage should rise to 13.5-14.5 volts due to the alternator charging the battery.

What does “6000 count” mean on a multimeter?

A 6000 count multimeter means the display can show up to 5999 units of measurement. It provides a high level of precision, allowing for detailed readings.

What is the symbol for volts?

The symbol for volts is “V.” It represents electric potential, voltage, and electromotive force.

Is car battery voltage AC or DC?

Car batteries operate on DC (Direct Current) power, which is ideal for starting the engine and powering the vehicle’s electrical systems.

Is 11.9 volts enough to start a car?

A car battery should measure at least 11.9 volts before starting. After starting the engine, if the voltage is between 12.8 to 13.2 volts, it may indicate the battery is weak and should be tested or replaced.

What is the voltage of a fully charged car battery?

A fully charged car battery should measure at least 12.6 volts. Some premium batteries like OPTIMA YELLOWTOPs can measure between 13.0-13.2 volts when fully charged.

What is a good voltage range for a 12V car battery?

A healthy 12V car battery should measure between 12.4-12.9 volts when the car is off. A lower voltage may indicate the battery needs charging or there is an issue with the car’s electrical system.

AstroAI True RMS 6000 Count Digital Multimeter User Manual Download

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