Main/OneNote/OSD/Research/ESD.md

[Notes to ESD essentials by TI](https://training.ti.com/esd-essentials-what-esd?context=1136983-1139548-1135647)


ESD - Electrostatic discharge

This happens when you're getting charged up positively and touch a conductor.

Large voltages can be generated that can damage Ics.


ESD diodes can be used to direct those ESD-currents into GND, before they can reach the Ics


![Circuit with ESD Protection
Interface
Connector
ESD
Diode
ESD Essentials
System
Circuitry ](Exported%20image%2020231126172008-0.png)

# Chapter 2 - ESD Working Voltage

Also known as Reverse Standoff Voltage


![Working Voltage vs. Breakdown Voltage
ESD
ESD I-v Plot
e tials
ESD
Diode
0:18
Protected
Circuitry
0:55
16
14
12
10
4
2
0 1 2 3 4 5 6 7 8 9 10 11
voltage (V) ](Exported%20image%2020231126172008-1.png)

Indicated by red: BreakDown Voltage. Any voltage larger than this will make the diode conductive.


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Λ-Ι asa
a6ellO/\ uMOP>1eaJ8 Θ6ηΙOΛ 611!ΥΙ0Μ ](Exported%20image%2020231126172008-2.png)

The signal level, which is used normally should be below VRWM --> like that we have below 10 nA leakage current.


The working voltage of the diode you choose should be slightly higher than the largest signal.


![Bidirectional vs. Unidirectional ESD
Configuration
Bidirectional
1/0
Functional Diagram
- GND
Has a symmetric positive and negative
breakdown voltage
Definition
Can be used for interfaces with both
positive and/or negative voltage ranges
Supported Interfaces
(all interfaces)
In I-channel ESD bidirectional ESD, any pin
can be the I/O and any pin can be the
ground
ESD Essentials
Unidirectional
1/0
GND
Has a positive breakdown voltage but
breaks down almost immediately in the
negative direction
Can only be used for interfaces that only
have a positive voltage range
Digital inputs, USB, HDMI and other
positive signal interfaces
Has better negative clamping performance
than bidirectional diodes since the negative
breakdown voltage is lower. ](Exported%20image%2020231126172008-3.png)

# IEC 610000-4-2 ESD Rating


![ESD Standard: IEC 61000-4-2
ESO s
IEC 61000-4-2 ESD
*Designed for real world
applications
ESD Essentials
61000-4-2
HBM
20
40
60
Time (ns)
80
100
TEXAS INSTRUMENTS ](Exported%20image%2020231126172008-4.png)


## Human Body Model (HBM) ESD

This is used to estimat the manufacturing, assembly and shipping. Not for the final use!


## Charge Device Model (CDM) ESD

ESD discharge through charged device into ground. Also only Manufacturing, assembly and shipping.


## IEC 61000-4-2

This is the model that simulates the final use by the user. There are 4 Levels and devices next to interface connectors should use at least level 4.


![Look for the IEC 61000-4-2 Rating
IEC 61000-4-2
Level
1
2
3
4
E D Ratin s
Contact
Voltage
2kV
6kV
8kV
Air Gap
Voltage
2kV
4kV
8kV
15kV
6.2
V(ESO)
Humm (HBM). ANSVESDA/JEOEC
Chat%d-device rncxlel (COM). JEDEC
CIO'
6 Contact Discharge
Discharge
ESD Essentials
VALUE
*15000
*15000 ](Exported%20image%2020231126172008-5.png)

# Clamping Voltage

This is the important measure, because it describes the voltage protection capability of the clamping diode.

![Common Misconception regarding IEC
Interface
Connector
ESD
Diode
IEC 610004-2 Rating
measures the robustness of the
diode
(ex: 8kV contact Il 5kV air gap)
System
Circuitry
be exposed to.
ESD Esse
v
ESD clamping voltage
rating measures how well the
ESD diode will protect
system circuitry ](Exported%20image%2020231126172008-6.png)
![Clamping Voltage on the T LP Plot
— 12
ESD Essentials
22A
ESD
15.5V
Diode
Minimize RDYN to provide
better clamping voltage
and protection
18
10
2
Transmission Line Pulse Plot
nds
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17
Voltage (V) ](Exported%20image%2020231126172008-7.png)

Depending on the ESD strike a different current is shunted through the diode. This results in a remaining voltage drop, which the system circuitry will be exposed to. That is the voltage that can still damage our system. --> select diode according to max voltage that system can survive.

# Parasitic Capacitance

![ESD Junction Capacitance
Interface Signal
ESD Esse
Protected
Circuitry
N -type
P-type ](Exported%20image%2020231126172008-8.png)

Because of the physics the diode can be modeled as a capacitor. Hence it will influence the circuit during normal operation.


If parasitic capacitance is high it can influence the signal:

![Capacitance Effect on Signal Integrity
Input Interface
Signal
ESD
Diode
ESD Essen—.
Signal
capacitance
interference
Protected
Circuitry ](Exported%20image%2020231126172008-9.png)

This means for a highspeed signal it is extremely important that the parasitic capacitance is small.


General overview:

![Capacitance Recommendations
ESD Typical
Tl Recommended
Interface
GPIO
Pushbutton
Audio
USB 2.0
USB 3.0
USB 3.1 Gen 2
HDMI 1.4
HDMI 2.0
Ethernet
Antenna
4-20mA Loop
Suggested
Capacitance (C')
<30pF
<30pF
<10pF
<2.5PF
<0.5pF
<O.3pF
<O.7PF
<0.5pF
<5pF
<O.2pF
<80pF
Device ](Exported%20image%2020231126172008-10.png)


# ESD Protection selection

![ESD Selection Steps
Was thi*
ESD Esse tlals
1)
2)
3)
4)
5)
Quantify the signal range of your signal/power interface to
determine the ESD diode's working voltage.
Decide whether a unidirectional or bidirectional configuration
is preferred.
Decide the maximum capacitance can be accepted for the
interface.
Determine what TLP voltage the system fails at to determine
the necessary clamping voltage of the diode.
Ensure that the diode exceeds IEC 61000-4-2 level 4. ](Exported%20image%2020231126172008-11.png)
![Step 4: Determine TLP Clamping Voltage
ESD Essentials
<16V
<16V
Battery
Charger
Fails: 20V TLP
USB 2.0
Switch
Fails: 16V TLP
Bidirectional
Any
<20Vat 16A
TLP
>3.6v•
Bidirectional
<2.5PF
<16V at 16A
TLP
GND
USB
Receptacle
Polarity
Configuration
Capacitance
Clamping
Voltage
IEC 61000-4-2
Rating
TLP failure voltage is NOT the same as absolute
maximum voltage. Absolute maximum voltage is a
DC voltage while TLP is a 100ns transient. ](Exported%20image%2020231126172008-12.png)