1. When repairing a switching power supply, first use a multimeter to check whether each power component is short-circuited, such as the power rectifier bridge, switch tube, high-frequency high-power rectifier tube; whether the high-power resistor that suppresses the surge current is burned out. Then check whether the resistance of each output voltage port is abnormal. If the above components are damaged, they need to be replaced.
2. After the first step is completed, if it still cannot work normally after the power is turned on, then check the power factor module (PFC) and pulse width modulation component (PWM), consult relevant information, and be familiar with the function of each foot of the PFC and PWM modules and the necessary conditions for the normal operation of the modules.
3. Then, for the power supply with PFC circuit, it is necessary to measure whether the voltage across the filter capacitor is about 380VDC. If there is a voltage of about 380VDC, it means that the PFC module is working properly. Then detect the working status of the PWM component, measure whether its power input terminal VC, reference voltage output terminal VR, and start control Vstart/Vcontrol terminal voltage are normal, use 220VAC/220VAC isolation transformer to power the switching power supply, and use an oscilloscope to observe whether the waveform of the CT terminal of the PWM module to the ground is a well-linear sawtooth wave or triangle, such as the TL494 CT terminal is a sawtooth wave, and the FA5310 CT terminal is a triangle wave. Whether the waveform of the output terminal V0 is an orderly narrow pulse signal.
4. In the practice of switching power supply maintenance, many switching power supplies use UC38×× series 8-pin PWM components. Most power supplies cannot work because the power supply startup resistor is damaged or the chip performance is degraded. When R is disconnected and there is no VC, the PWM component cannot work, and a resistor with the same power resistance as the original needs to be replaced. When the starting current of the PWM component increases, the R value can be reduced until the PWM component can work normally. When repairing a GE DR power supply, the PWM module is UC3843. No other abnormalities were found during the inspection. After connecting a 220K resistor in parallel to R (220K), the PWM component worked and the output voltage was normal. Sometimes due to a peripheral circuit failure, the 5V voltage at the VR end is 0V, and the PWM component does not work. When repairing the Kodak 8900 camera power supply, this situation was encountered. The external circuit connected to the VR end was disconnected, and VR changed from 0V to 5V. The PWM component worked normally and the output voltage was normal.
5. When there is no voltage of about 380VDC on the filter capacitor, it means that the PFC circuit is not working properly. The key detection pins of the PFC module are the power input pin VC, the start pin Vstart/control, the CT and RT pins and the V0 pin. When repairing a Fuji 3000 camera, test that there is no 380VDC voltage on the filter capacitor on the board. VC, Vstart/control, CT and RT waveforms as well as V0 waveform are all normal. There is no V0 waveform when measuring the G pole of the field effect power switch tube. Since FA5331 (PFC) is a patch component, the V0 terminal and the board are poorly soldered after the machine has been used for a long time, and the V0 signal is not sent to the G pole of the field effect tube. Solder the V0 terminal to the solder joint on the board, and use a multimeter to measure the filter capacitor to have a voltage of 380VDC. When the Vstart/control terminal is at a low level, the PFC cannot work either. Then it is necessary to detect the relevant circuits connected to its terminals and the periphery.
In short, the switching power supply circuit is easy or difficult, the power is large or small, and the output voltage is varied. As long as you grasp the core things, that is, fully familiar with the basic structure of the switching power supply and the characteristics of the PFC and PWM modules, and the basic conditions for their operation, follow the above steps and methods, and do more hands-on maintenance of the switching power supply, you can quickly eliminate the switching power supply failure and achieve twice the result with half the effort.
The general situation is:
1. The switching power supply does not start oscillation. Generally, check whether the switching frequency is correct, whether the protection circuit is blocked, whether the voltage feedback circuit and the current feedback circuit are OK, whether the switch tube is broken down, etc.
2. The transformer heats up or makes a "hissing" sound, which is generally due to incorrect switching frequency;
3. The output voltage power indicator light flashes, which generally means that there is a short circuit on the secondary side.
Reference address:Switching power supply maintenance steps and experience
2. After the first step is completed, if it still cannot work normally after the power is turned on, then check the power factor module (PFC) and pulse width modulation component (PWM), consult relevant information, and be familiar with the function of each foot of the PFC and PWM modules and the necessary conditions for the normal operation of the modules.
3. Then, for the power supply with PFC circuit, it is necessary to measure whether the voltage across the filter capacitor is about 380VDC. If there is a voltage of about 380VDC, it means that the PFC module is working properly. Then detect the working status of the PWM component, measure whether its power input terminal VC, reference voltage output terminal VR, and start control Vstart/Vcontrol terminal voltage are normal, use 220VAC/220VAC isolation transformer to power the switching power supply, and use an oscilloscope to observe whether the waveform of the CT terminal of the PWM module to the ground is a well-linear sawtooth wave or triangle, such as the TL494 CT terminal is a sawtooth wave, and the FA5310 CT terminal is a triangle wave. Whether the waveform of the output terminal V0 is an orderly narrow pulse signal.
4. In the practice of switching power supply maintenance, many switching power supplies use UC38×× series 8-pin PWM components. Most power supplies cannot work because the power supply startup resistor is damaged or the chip performance is degraded. When R is disconnected and there is no VC, the PWM component cannot work, and a resistor with the same power resistance as the original needs to be replaced. When the starting current of the PWM component increases, the R value can be reduced until the PWM component can work normally. When repairing a GE DR power supply, the PWM module is UC3843. No other abnormalities were found during the inspection. After connecting a 220K resistor in parallel to R (220K), the PWM component worked and the output voltage was normal. Sometimes due to a peripheral circuit failure, the 5V voltage at the VR end is 0V, and the PWM component does not work. When repairing the Kodak 8900 camera power supply, this situation was encountered. The external circuit connected to the VR end was disconnected, and VR changed from 0V to 5V. The PWM component worked normally and the output voltage was normal.
5. When there is no voltage of about 380VDC on the filter capacitor, it means that the PFC circuit is not working properly. The key detection pins of the PFC module are the power input pin VC, the start pin Vstart/control, the CT and RT pins and the V0 pin. When repairing a Fuji 3000 camera, test that there is no 380VDC voltage on the filter capacitor on the board. VC, Vstart/control, CT and RT waveforms as well as V0 waveform are all normal. There is no V0 waveform when measuring the G pole of the field effect power switch tube. Since FA5331 (PFC) is a patch component, the V0 terminal and the board are poorly soldered after the machine has been used for a long time, and the V0 signal is not sent to the G pole of the field effect tube. Solder the V0 terminal to the solder joint on the board, and use a multimeter to measure the filter capacitor to have a voltage of 380VDC. When the Vstart/control terminal is at a low level, the PFC cannot work either. Then it is necessary to detect the relevant circuits connected to its terminals and the periphery.
In short, the switching power supply circuit is easy or difficult, the power is large or small, and the output voltage is varied. As long as you grasp the core things, that is, fully familiar with the basic structure of the switching power supply and the characteristics of the PFC and PWM modules, and the basic conditions for their operation, follow the above steps and methods, and do more hands-on maintenance of the switching power supply, you can quickly eliminate the switching power supply failure and achieve twice the result with half the effort.
The general situation is:
1. The switching power supply does not start oscillation. Generally, check whether the switching frequency is correct, whether the protection circuit is blocked, whether the voltage feedback circuit and the current feedback circuit are OK, whether the switch tube is broken down, etc.
2. The transformer heats up or makes a "hissing" sound, which is generally due to incorrect switching frequency;
3. The output voltage power indicator light flashes, which generally means that there is a short circuit on the secondary side.
Previous article:Design of filter connector for multilayer varistor array
Next article:A new frequency, phase and control technology of electromagnetic heater
- Popular Resources
- Popular amplifiers
Recommended Content
Latest Power Management Articles
- MathWorks and NXP Collaborate to Launch Model-Based Design Toolbox for Battery Management Systems
- STMicroelectronics' advanced galvanically isolated gate driver STGAP3S provides flexible protection for IGBTs and SiC MOSFETs
- New diaphragm-free solid-state lithium battery technology is launched: the distance between the positive and negative electrodes is less than 0.000001 meters
- [“Source” Observe the Autumn Series] Application and testing of the next generation of semiconductor gallium oxide device photodetectors
- 采用自主设计封装,绝缘电阻显著提高!ROHM开发出更高电压xEV系统的SiC肖特基势垒二极管
- Will GaN replace SiC? PI's disruptive 1700V InnoMux2 is here to demonstrate
- From Isolation to the Third and a Half Generation: Understanding Naxinwei's Gate Driver IC in One Article
- The appeal of 48 V technology: importance, benefits and key factors in system-level applications
- Important breakthrough in recycling of used lithium-ion batteries
MoreSelected Circuit Diagrams
MorePopular Articles
- Innolux's intelligent steer-by-wire solution makes cars smarter and safer
- 8051 MCU - Parity Check
- How to efficiently balance the sensitivity of tactile sensing interfaces
- What should I do if the servo motor shakes? What causes the servo motor to shake quickly?
- 【Brushless Motor】Analysis of three-phase BLDC motor and sharing of two popular development boards
- Midea Industrial Technology's subsidiaries Clou Electronics and Hekang New Energy jointly appeared at the Munich Battery Energy Storage Exhibition and Solar Energy Exhibition
- Guoxin Sichen | Application of ferroelectric memory PB85RS2MC in power battery management, with a capacity of 2M
- Analysis of common faults of frequency converter
- In a head-on competition with Qualcomm, what kind of cockpit products has Intel come up with?
- Dalian Rongke's all-vanadium liquid flow battery energy storage equipment industrialization project has entered the sprint stage before production
MoreDaily News
- Allegro MicroSystems Introduces Advanced Magnetic and Inductive Position Sensing Solutions at Electronica 2024
- Car key in the left hand, liveness detection radar in the right hand, UWB is imperative for cars!
- After a decade of rapid development, domestic CIS has entered the market
- Aegis Dagger Battery + Thor EM-i Super Hybrid, Geely New Energy has thrown out two "king bombs"
- A brief discussion on functional safety - fault, error, and failure
- In the smart car 2.0 cycle, these core industry chains are facing major opportunities!
- The United States and Japan are developing new batteries. CATL faces challenges? How should China's new energy battery industry respond?
- Murata launches high-precision 6-axis inertial sensor for automobiles
- Ford patents pre-charge alarm to help save costs and respond to emergencies
- New real-time microcontroller system from Texas Instruments enables smarter processing in automotive and industrial applications
Guess you like
- rk3568 latest core board + Android11
- Learning MCU development precautions and requirements
- What are the options for TI DSP?
- The long-awaited ADI system solution selection is now online~
- Tips for overcoming RF challenges with WiFi 6
- How to solve the problem that the mount point does not exist when mounting a USB drive in Ubuntu?
- 【GD32L233C-START Review】3. Porting an operating system
- Understanding Envelope Tracking Technology (ET) in 5G
- Rapid IoT Prototyping Kit SLN-RPK-NODE
- Raspberry Pi Windows IoT Development (IV) UART Interface