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LCR-T4 Mega428 Component Tester ESR Meter LCD Display With Case
LCR-T4 Mega428 Component Tester


 
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: $17.99


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Product Code: LCDTESTER1
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Description
 
A great overall tester for many of your common components. Later M328 version of the software that gives more functions. The chip is a Atmega328.128mm x 64mm big Backlight LCD display with only a 2mA when on standby. Uses a standard 9V battery (Not included). Board is all complete and ready to use however, the case needs assembly. Tests; Inductors, Capacitors, Diodes, Dual diode, MOS, transistors, SCR (Silicon Controlled Rectifiers), Regulators, LEDs , ESR. Resistance :0.1 ohm resolution, maximum 50M ohm Capacitor : 25pf -100,000 Uf and Inductors : 0.01mh-20H.** Note: Before measuring capacitance the capacitor should be discharged! Otherwise, it will damage the meter. Some instructions are on our website below. However, we can email you the actual PDF.
Other Features:
*Would make a great gift Idea!
* Automatic detection of NPN and PNP transistors, n-channel and p-channel MOSFET diode (including double diode), thyristor, transistor, resistor and capacitor and other components
* Automatic test the pin of a component, and display on the LCD
* Can detect the transistor, MOSFET protection diode amplification coefficient
and the base to determine the emitter transistor forward biased voltage
*Measure the gate and gate capacitance of the MOSFET threshold voltage
* 12864 liquid crystal display with green backlight
* One button operation, automatic shutdown .
* Only 20nA shutdown current.
* Automatically detect NPN, PNP bipolar transistors , N -channel and P -channel MOSFET,
JFET , diodes , two diodes, thyristors small power unidirectional and bidirectional thyristor.
* Automatic identification components pin arrangement .
* Measuring bipolar transistor current amplification factor and base - emitter threshold voltage.
* Via the base - emitter threshold voltage and high current amplification factor to identify Darlington transistors.
* Can detect bipolar transistors and MOS transistors protection diodes.
* Measuring the gate MOSFET threshold voltage and the gate capacitance.
* Can simultaneously measure two resistors and resistor symbol is displayed.
** Note: Before measuring capacitance the capacitor should be discharged! Otherwise, it may damage the meter .
Instructions:
1. There are some digit codes like 1, 2, and 3 on back of test jig. Insert the DUT on test jig and press the button to start, the meter will identify and display the pin out vs. the clip numbers on the screen.
2. When the Component has two pins, you can choose different jig combination as test terminal, i.e. 1-2, 1-3 or 2-3.When the DUT has polar, the polar can be detected and shown accordingly.
3. When the DUT has three pins, you can choose different triple-jig combinations as test terminal, i.e. 1-2-3, 2-3-1 or 3-2-1.

Features
1. Operates with ATmega328 microcontrollers.
2. One key operation with automatic power shutdown.
3. Shutdown current is only about 20nA.
4. Automatic detection of NPN and PNP bipolar transistors, N- and P-Channel MOSFETs, JFETs, diodes, double diodes, Thyristors and Triacs.
5. Automatic detection of pin layout of the detected part.
6. Measuring of current amplification factor and Base-Emitter threshold voltage of bipolar transistors.
7. Darlington transistors can be identified by the threshold voltage and high current amplification factor.
8. Detection of the protection diode of bipolar transistors and MOSFETs.
9. Measuring of the Gate threshold voltage and Gate capacity value of MOSFETs.
10. Up to two Resistors are measured and shown with symbols and values with up to four decimal digits in the right dimension. All symbols are surrounded by the probe numbers of the Tester (1-3). So Potentiometer can also be measured. If the Potentiometer is adjusted to one of its ends, the Tester cannot differentiate the middle pin and the end pin.
11. Resolution of resistor measurement is now up to 0.01_, values up to 50M_ are detected.
12. One capacitor can be detected and measured. It is shown with symbol and value with up to four decimal digits in the right dimension. The value can be from 25pF to 100mF. The resolution can be up to 1pF.
13. For capacitors with a capacity value above 2μF the Equivalent Serial Resistance (ESR) is measured with a resolution of 0.01_ and is shown with two significant decimal digits.
14. Up to two diodes are shown with symbol or symbol in correct order. Additionally the flux voltages are shown.
15. LED is detected as diode; the flux voltage is much higher than normal. Two-in-one LEDs are also detected as two diodes.
16. Zener-Diodes can be detected, if reverse break down Voltage is below 4.5V. These are shown as two diodes, you can identify this part only by the voltages. The outer probe numbers, which surround the diode symbols, are identical in this case. You can identify the real Anode of the diode only by the one with break down (threshold) Voltage nearby 700mV!
17. Only one measurement is needed to find out the connections of a bridge rectifier.
18. Capacitors with value below 25pF are usually not detected, but can be measured together with a parallel diode or a parallel capacitor with at least 25pF. In this case you must subtract the capacity value of the parallel connected part.
19. For resistors below 2100also the measurement of inductance will be done, if your ATmega has at least 16K flash memory. The range will be from about 0.01mH to more than 20H, but the accuracy is not good. The measurement result is only shown with a single component connected.
20. Thyristors and Triacs can only be detected, if the test current is above the holding current. Some Thyristors and Triacs need as higher gate trigger current, than this Tester can deliver. The available testing current is only about 7mA!

Cautions:
1. Discharge the capacitors completely before you measure it, otherwise, it could damage your meter.
2. Considering the accuracy of testing, please replace batteries when battery power is low.
3. Brightness Adjustment: Keep pressing the power button and enter into the interface of contrast adjustment.
4. Error Correction: Please prepare your own necessities and refer to the following procedure.
Calibration Method:
1) Turn off the meter. Use 2 wires to short-circuit the little metal sheet marked with 1, 2 and 3; don’t release the short-circuit wires until step 3. 2) Push the start button to turn on the meter. The screen will show self test mode, the 2nd line will show ? Mark. Push the start button again quickly and Calibration will start.
3) When screen shows T4 isolate Probe, remove the short-circuit wires.
4) When screen shows 1-II-3 >100nf, connect a non-polar capacitor (>100nf) to the meter, the calibration procedure will keep going until completion.
2) Push the start button to turn on the meter. The screen will show self test mode, the 2nd line will show ? Mark. Push the start button again quickly and Calibration will start.
3) When screen shows T4 isolate Probe, remove the short-circuit wires.
4) When screen shows 1-II-3 >100nf, connect a non-polar capacitor (>100nf) to the meter, the calibration procedure will keep going until completion.

Average Rating: Average Rating: 4.5 of 5 4.5 of 5 Total Reviews: 14 Write a review »

  1 of 1 people found the following review helpful:
 
4 of 5 LCR-T4 Mega428 Component Tester February 27, 2023
Reviewer: Fred S. from Winlock, WA United States  
There was no instructions on how to layout the acrylic box. I assembled it, but don't know if it is right. The top acrylic window was cracked from the test connector corner into the LCD screen about 1/2 inch.  The crack is annoying, but the meter is still functional.  After testing over 200 transistors, the test connector would not grip very small diameter lead wires.  I would suggest to use clip leads in the connector as that would prevent that. .  Otherwise, the meter performed as advertised.  I am very happy with the meter overall! :)

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  0 of 0 people found the following review helpful:
 
4 of 5 LCR-T4 Mega428 Component Tester May 6, 2022
Reviewer: Clay Bartholow from MN  
These testers have been around for ten years by now.  They're all basically clones of the same circuit and firmware.  So how do you compete in this market space?  Price is the obvious answer.  But how do you make your tester cheaper than the rest?  Cheaper parts, reduced quality, increasing scale of manufacturing?  Setting your tester apart from the competition in some way might work too.  That's what this tester tries to do.   It looks like there are cutouts to mount a nine-volt battery holder but was one provided?  Cost-cutting.  Does it work?  I don't know.  I've spent too much time assembling the case and writing this review!

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  0 of 0 people found the following review helpful:
 
5 of 5 A must for the Bench December 2, 2021
Reviewer: Ricky Beres from Cut Bank, MT United States  
I only have had it for 2days.It has worked great for testing components.

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  0 of 0 people found the following review helpful:
 
4 of 5 Review Tester October 4, 2021
Reviewer: Thomas Kramer NQ7R from Casa Grande, AZ United States  
Ordering was easy and arrived quickly.  Seems to operate well.

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  0 of 0 people found the following review helpful:
 
4 of 5 A Good Product,With 1 Small Annoyance October 4, 2021
Reviewer: Jeffrey Massey from Columbia, MO United States  
The tester is well-built and looks professional. Couldn't wait to use it. Worked out of the plastic case when the top cover was installed static voltage blanked out the display. I just removed the top cover used the long screws as legs and it remained happy. Thanks!

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