Skema Inverter Egs002

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Sinusoid Inverter Driver Board, EGS002 datasheet, EGS002 circuit, EGS002 data sheet: EGMICRO, alldatasheet, datasheet, Datasheet search site for Electronic.

Inverters, Modules, Power

5V single power supply
4 pin set of pure sine wave output frequency:
50Hz pure sine wave of fixed frequency of 60Hz pure sine wave of fixed frequency 0-100Hz
pure sine wave frequency adjustable 0-400Hz pure sine wave frequency adjustable
Unipolar and bipolar modulation
300nS dead time 500nS dead time 1.0uS dead time 1.5uS dead time
External 12MHz crystal oscillator
PWM carrier frequency 23.4KHz
Voltage, current, real time temperature feedback
Overvoltage, undervoltage, overcurrent and overheating protection
Soft-start mode pin setting the response time of 1S
Serial communication to set the output voltage, frequency and other parameters
External Serial LCD Module 1602 displays the inverter
voltage, frequency, temperature and current information

~~₨1,600~~

13 in stock

Skema Inverter Egs002 Manual

2 sine wave and 2 square wave output. AD9850: 0-40MHz. After the 20-30MHz frequency harmonics increases, the EG8010 is a digital, function very well bring their own dead-time control of pure sine wave inverter generator chip, used in two-stage DC-DC-AC power conversion.
Description EGS002 is a driver board specific for single phase sinusoid inverter. It uses ASIC EG8010 as control chip and IR2110S as driver chip. The driver board integrates functions of voltage, current and temperature protection, LED warning indication and fan control.Jumper configures 50/60Hz AC output, soft start mode and dead time.
Pure Sine Wave Inverter Driver Board EGS002 EG8010+IR2110 Driver,5V single power,PWM carrier frequency 23.4KHzsupply.

EGS002 EG8010 + IR2113 Pure Sine Wave Inverter SPWM Module Price in Pakistan

Introduction

EG8010 is a digital, function very well bring their own dead-time control of pure sine wave inverter generator chip, used in two-stage DC-DC-AC power conversion structure or single-stage DC-AC power frequency transformer Boost architecture, an external 12MHz crystal oscillator, to achieve high precision, and harmonic distortion is very small, 50Hz or 60Hz pure sine wave inverter ASIC. The chip uses CMOS technology, the internal integration of SPWM sine generator, dead time control circuit, the multiplier factor range, soft start circuit, protection circuit, RS232 serial communication interface and a serial LCD driver module 1602 functions.

5V single power supply
4 pin set of pure sine wave output frequency:
50Hz pure sine wave of fixed frequency of 60Hz pure sine wave of fixed frequency 0-100Hz
pure sine wave frequency adjustable 0-400Hz pure sine wave frequency adjustable
Unipolar and bipolar modulation
Comes with deadband control, pin 4 dead time:
300nS dead time 500nS dead time 1.0uS dead time 1.5uS dead time
External 12MHz crystal oscillator
PWM carrier frequency 23.4KHz
Voltage, current, real time temperature feedback
Overvoltage, undervoltage, overcurrent and overheating protection
Soft-start mode pin setting the response time of 1S
Serial communication to set the output voltage, frequency and other parameters
External Serial LCD Module 1602 displays the inverter
voltage, frequency, temperature and current information

Applications

Single phase pure sine wave inverter
PV Inverter
Wind power inverter
Uninterruptible Power Supply UPS System
Digital generator system
IF power
Single-phase motor speed controller
Single-phase inverter
Sine wave dimmer
Sine wave regulator

Package Includes

1 x EGS002 EG8010 + IR2113 Pure Sine Wave Inverter SPWM Module

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Skema Inverter Egs002 Parts

Few days ago, GoHz made a 24V 2000W power inverter in home, sharing some design schematics and circuit diagrams.
Power inverter testing. The picture was taken in short-circuited.
Output waveform. The SPWM accuracy of EG8010 was not high enough waveform, so the inverter output was not good enough as pure sine wave. The dead zone time was a bit long (1uS), where the zero-crossing point did not look good, in order to ensure the safety of the tube, GoHz did not adjust it.
This was a full load test on the power inverter, two water heaters, about 2000 watt, the water was boiling completely. Maximum connected load was 3000 watt for approx 10 seconds, due to the DC power supply limitation (paralleling a large DC battery and two small batteries), GoHz did not continue test it. Adjust the inverter power limitation potentiometer, limit the maximum power at 2500 watt, (a little greater than 2500 watt), the power inverter works for less than two seconds before it turn off the output. Short circuit protection is also set about two seconds to turn off the output. Due to the EG8010 programming reason, the power inverter will continuous work after a few seconds if the power supply is not cut off. This power inverter has a good starting ability, it only takes about 1 second for two parallel 1000 watt solar lamps. This inverter is designed to power about 2200 watt, the headline of this paper is 2000 watt is because the DC power supply maximum output current is 100A, so GoHz tested it at 2000 watt, for more than 12 hours testing, it can work well at 2000 watt, there would be no problem for the actual load at 2500 watt.
This is the foreline tube D level waveform when the power inverter was in 2000w full load.
Expanding the foreline tube D level waveform when the inverter in 2000w full load.
This is the power inverter in no-load power consumption test.
It can be seen from two multimeter, no-load power consumption is 24.6 * 0.27 = 6.642W, no-load consumption is relatively low, it can be used for photovoltaic, car batteries and other new energy systems.
Forward toroidal transformer. Stacked two 65 * 35 * 25mm ferrite ring, primary 3T + 3T with 16 1mm wires, the secondary was used very fine multi-strand wire tangled wound of 42T, auxiliary power 3T.
Using 4 pairs ixfh80n10, 80A, 100V, 12.5 milliohms resistors. Rectifiers are 4 set MUR1560, two large electrolytic 450V470uF, 4 35V1000uF Japanese chemical capacitors for 24V DC input.
Backward power tube is 4 set FQA28N50, output inductor is sendust 52mm with 1.5mm enameled wire wrap 120T, inductance 1mH, capacitors are 2 set 4.7uF safety capacitors. Two high frequency arm FQL40N50, and two low frequency arm FQA50N50.
Short circuit test. This power inverter is sensitive in short circuit protection, after more than 100 times short circuit tests (power on short circuit, no-load short circuit, full load short circuit, loading short circuit), the power inverter is still work good. The output terminals of the inverter and the tweezers were scarred.
Here is the circuit section, get understanding the basics of this power inverter, DIY an inverter now.
Forward board DC-DC power circuit board, conventional push-pull. (Download PDF file)
Forward DC-DC circuit driver schematic. It has undervoltage, overvoltage, overcurrent protection, overcurrent protection is implemented by test tube drop. The circuit is conventional SG3525 + LM393. (Download PDF file)
Backward DC-AC schematic, using conventional circuit too, there is nothing new places, the unique is the additional high-voltage detection circuit, means when the DC voltage is higher than 240V DC, the auxiliary power is turned on, and the backward circuit is beginning to work. In debugging, add a function of turning off the SPWM drive circuit when the auxiliary power drops, to prevent the inverter bombing incidents when the auxiliary power supply drops but the DC voltage was still high, by adding this function, we can shut down the power inverter in short circuit. (Download PDF file)
SPWM driver board circuit, EG8010 + IR2110, to detect the voltage drop for short circuit protection. (Download PDF file)

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