1. Staying Connected 24/7: Safeguard Consumer Electronics
with Proper Circuit Protection
Day 1: Overview & The Importance of Circuit Protection

2. Agenda
Day 1: Consumer Electronics Overview & The Importance of Circuit Protection
Day 2: Consumer Electronics Circuit Protection Applications
Day 3: Consumer Electronics Standards

3. Consumer Electronics Overview & The Importance of Circuit Protection
In our daily lives, we’re increasingly dependent upon electronics technologies.
Failure is not an option.
Whether you develop mobile devices, wearable technologies or smart appliances, the proper circuit protection – especially against ESD (electrostatic discharge) – helps ensure operational reliability and longevity for consumer applications.

4. Consumer Electronics Overview & The Importance of Circuit Protection
Today’s session addresses:
Consumer electronics market growth
What is circuit protection?
Why is it important to consumer electronics?
What are the issues designers should be aware of in the development of their designs?

5. Slide #5

12. Slide #12

13. That’s A LOT of GROWTH! But why is Consumer Electronics circuit protection important?
All consumer electronics – from smartphones and wearables to TVs and the latest connected home technologies – all need circuit protection.
Why?
Reliability
Safety
Protect Technology
Protect Life

14. What IS Circuit Protection?
Vital elements in applications from consumer electronics and telecom circuits to automobiles and industrial equipment.
Protects sensitive electronics against harm caused by:
over-currents,
over-voltages,
electrostatic discharge (ESD),
lighting surges, and
other electrically harmful occurrences.
What exactly is electronic circuit protection? Circuit protection components are vital elements in applications from consumer electronics and telecom circuits, to automobiles and industrial equipment. They protect sensitive electronic devices and business assets against harm caused over-currents, over-voltages, electrostatic discharge (ESD), lighting surges, and other electrically harmful occurrences.

15. Why Circuit Protection is Crucial
For protecting people
For protecting technology
For protecting businesses and their brand’s reputation
Circuit protection components are vital in a broad range of electrical and electronic design applications because they protect people, electronic devices, and business assets (equipment, buildings) from harm.

16. Where Circuit Protection Is Used
In virtually every electrical and electronic device made today, including:
Consumer Electronics
Automotive Components
LED Lighting
Telecom
Industrial
Designing the appropriate circuit protection is critical to preventing dangerous products from reaching the public.
Example: Lithium ion cells, like the ones in laptops, are subject to thermal runaway. Raising the temperature of a Li-ion battery above the 140 degree F mark leads to a compromised cell which causes an explosion and a resulting fire. Battery packs for laptops and other portable devices contain many levels of protection to assure safety under (almost) all circumstances when in the hands of the public. The safety begins with the battery cell, which includes: [1] a built-in temperature switch called PTC that protects against high current surges, [2] a circuit interrupt device (CID) that opens the electrical path if an over-charge raises the internal cell pressure to 1000 kPa (145psi), and [3]a safety vent that releases gas in the event of a rapid increase in cell pressure.
In addition to these internal safeguards, an external electronic protection circuit prevents the charge voltage of any cell from exceeding 4.30V. Furthermore, a fuse cuts the current if the skin temperature of any cell approaches 90°C (194°F). To prevent the battery from over-discharging, a control circuit cuts off the current path at about 2.20V/cell. (Content on battery protection from:

17. Circuit Protection Device Types
Cartridge Fuses
Positive Temperature Coefficient (PTC) Fuses
Gas Discharge Tubes (GDT)
Varistors (MOV, TMOV)
Polymer ESD Suppressors
Transient Voltage Suppression (TVS) Diodes
Protection Thyristors
TVS Diode Arrays
SIDACtor Devices
LED Protectors (PLED)
What kinds of circuit protection devices are available to device designers? Common types of circuit protection devices for electronic products include: fuses, GDTs (Gas Discharge Tubes), resettable PTCs, varistors, ESD Suppressors (Pulseguard), TVS diodes, TVS diode arrays, SIDACtor devices, and PLEDs (LED protectors). Many of these are used in Consumer Electronics applications.

18. Example of Poorly Planned Circuit ProtectionIC
Power Port
MOV
(Metal Oxide Varistor) D+ DC
An MOV protects against over-voltage events
A fuse protects against over-current into the IC… AND excessive current into the MOV
Fuse ??
MOV1
MOV2
LF TMOV
Included a screen cap from the MOV v TMOV test video. (Video not included in PPT. Provide link for Design News to share.)
Slide #18

19. Real World Examples of Ignoring Circuit Protection
What can happen when there’s insufficient circuit protection? Designing the appropriate circuit protection is critical to preventing dangerous products from reaching the public.
Example: Lithium ion cells, like the ones in laptops, are subject to thermal runaway. Raising the temperature of a Li-ion battery above the 140 degree F mark leads to a compromised cell which causes an explosion and a resulting fire. Battery packs for laptops and other portable devices contain many levels of protection to assure safety under (almost) all circumstances when in the hands of the public. The safety begins with the battery cell, which includes: [1] a built-in temperature switch called PTC that protects against high current surges, [2] a circuit interrupt device (CID) that opens the electrical path if an over-charge raises the internal cell pressure to 1000 kappa (145psi), and [3]a safety vent that releases gas in the event of a rapid increase in cell pressure.
In addition to these internal safeguards, an external electronic protection circuit prevents the charge voltage of any cell from exceeding 4.30V. Furthermore, a fuse cuts the current if the skin temperature of any cell approaches 90°C (194°F). To prevent the battery from over-discharging, a control circuit cuts off the current path at about 2.20V/cell. (Content on battery protection from:

20. Circuit Protection IS a Critical Part of Design!
Circuit protection is a critical part of the circuit design process
All too often though, circuit protection is the last thing some engineers think about because they prioritize designing the core functionality of their devices as quickly as possible.
Circuit protection should NEVER be an afterthought!

21. Consequences of Thinking About CP Too Late
You may need to redo the board layout, which costs money and results in lost development time
A less-than-optimal protection device or location, which results in functional failures, poor reliability, safety issues, shock or even fire
The best time to start thinking about circuit protection is AFTER the chipset has been selected and BEFORE beginning to lay out the circuit boards.
Potential consequences of making circuit protection an afterthought:
Once the PCB is designed, engineers may have difficulty finding room for circuit protection devices, forcing them to re-layout the boards, costing their employer more money and losing valuable development time
Even if they don’t have to re-layout the board, time pressure may cause them to choose a less-than-optimal protection device or putting a device in a non-optimal location, resulting in functional failures, poor reliability, safety issues, shock, or even fire.
Best time to start thinking about circuit protection is after the chip set has been selected and before beginning to lay out circuit boards. At this point, ESD ratings are available and designers can know how robust or how sensitive the chips are.

22. Bottom line: All Consumer Electronics applications are subject to damaging transient surges!

23. Designers should be aware of the following issues…
Know the threats to consumer electronics design: Over-current, over-voltage, lightning/transient surges.
Proper protection of ALL electronics/circuits begins with realization that several levels of protection are necessary for a robust design.
Today’s advanced chipsets are more susceptible to damage from ESD and other sources of transient surges
It’s important to have an awareness/understanding of what’s required to comply with global regulations and standards.
Coming Tomorrow… Consumer Electronics Circuit Protection Applications

24. Thank You for your attention! Any question?