ESD protection for floating circuits

In summary, you would connect the ESD diodes to ground and Vcc. There are different techniques you can use, depending on the power supply and circuit it is connected to.
  • #1
likephysics
636
2
How do you protect a power supply that is floating and not connected to Earth ground.
Do you still connect the ESD diodes to ground and Vcc?
Are there different techniques.
 
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  • #2
you connect the ESD diodes to whatever the negative and positive terminals of the power supply are attached too.
 
  • #3
likephysics said:
How do you protect a power supply that is floating and not connected to Earth ground.
Do you still connect the ESD diodes to ground and Vcc?
Are there different techniques.

Could you describe your setup in more detail? Is this power supply plugged into a wall socket, or battery powered? What is the HiPot rating of the power supply from output to AC Mains input? What is it powering? Have any pics?
 
  • #4
Also following what Berkeman said, what are the inputs and outputs of the circuit the power supply is connected to, connected to.
 
  • #5
Actually, this is a really common problem, and it's easy to cure.
You commonly see this problem in the following areas:
- Patient isolation for medical products
- Isolated AC power supplies
- Chassis isolated instruments (typically to prevent ground fault currents)
- Battery powered (floating) equipment.

Firstly, you package your item to protect against unwanted arcs reaching internal circuits. Typically a minimum creepage distance of 1mm per kv stand off is applied.

Then, you ensure that any exposed pins of the isolated circuit are clamped to the ground plane near their entry onto the board.

Next, you need an RC circuit between the primary and isolated circuits to ensure that the voltage does not become high enough to arc over. Typically 2.7 nF, X class capacitor between the isolated circuit and primary circuit is large enough to absorb the ESD hit without failing due to voltage. A combined resistance of typically 1 meg-ohm is commonly placed across the capacitor and serves to drain off the accumulated charge across it. Usually, the resistor is comprised of three resistors in series to handle the peak voltage across the capacitor.

In medical equipment, two capacitors in series are required to ensure low leakage current should one of the capacitors fail in a single-point failure. (reference IEC 60601).

In battery operated equipment, there may not be a path to discharge the current, so the test technician must use a conductive brush to remove the remaining charge after every zap.

I hope this is helpful.

Best Regards,

Mike_In_Plano
 

Related to ESD protection for floating circuits

Question 1: What is ESD protection for floating circuits?

ESD protection for floating circuits is a method used to prevent Electrostatic Discharge (ESD) from damaging electronic devices. ESD occurs when an object with a high charge comes into contact with a lower charged object, creating a sudden flow of electricity. This can cause damage to electronic circuits, leading to malfunctions or failures.

Question 2: Why is ESD protection important for floating circuits?

ESD protection is important for floating circuits because these circuits are not grounded and are susceptible to high voltage discharges. Without proper protection, ESD can damage components and lead to costly repairs or replacements. It is essential to protect floating circuits to ensure the reliable operation of electronic devices.

Question 3: How does ESD protection work for floating circuits?

ESD protection for floating circuits works by providing a low-impedance path for the discharge of static electricity. This can be achieved through the use of components such as transient voltage suppressors, diodes, or capacitors. These components are designed to absorb and dissipate the high voltage discharge, protecting the sensitive components of the circuit.

Question 4: What are the different types of ESD protection for floating circuits?

There are several types of ESD protection available for floating circuits, including transient voltage suppressors, diodes, varistors, and gas discharge tubes. These components provide different levels of protection and are suitable for different types of circuits. It is important to select the appropriate type of protection for the specific circuit and its requirements.

Question 5: How can I test the effectiveness of ESD protection for floating circuits?

The effectiveness of ESD protection for floating circuits can be tested using specialized equipment such as an ESD simulator or an electrostatic field meter. These tools can simulate an ESD event and measure the voltage levels on the protected circuit. It is important to regularly test the ESD protection to ensure it is functioning properly and make any necessary adjustments or replacements.

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